Academic year 2022 - 2023

•   3D Design MAP22MT02-3001 24.10.2022-18.12.2022  4 credits  (MAP22D-V, ...) +-
  Competence objectives of the study unit

  After passing the course the student is expected to:
  - master a modeling program for creating 3D models (Siemens NX)
  - be able to create 3-D models and 2-D dimension drawings of them.
  - Understand the opportunities and benefits that 3-D modeling brings.
  - be familiar with the connection between design models and other production processes.

  Prerequisites

  Technical drawings

  Content of the study unit

  - Solid models
  - Surface models
  - Pipe models
  - Sheet metal models
  - Assemblies with moving parts

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Knows how 3D models are built up and is able to independently create simple 3D models.
  Knows the relationship between 3D model and drawing.
  Knows how 3D modeling affects other areas of mechanical engineering.

  Assessment criteria – good (3-4)

  Is able to independently build 3D models.
  Understands the connections between 3D model and drawing and is able to document the 3D model.
  Understands the principles with parameters.
  Can basically take into account the impact of 3D modeling in other areas of mechanical engineering.

  Assessment criteria – excellent (5)

  Is able to independently build complex 3D models.
  Can document 3D models according to technical drawing rules.
  Can apply parameters in the construction of 3D models.
  Is able to independently take into account 3D modeling's impact in other areas of mechanical engineering.

  Further information

  The course can be conducted remotely.

  ---

  Person(s) in charge

  Kaj Rintanen

  Mode of delivery

  Face-to-face

  Learning material

  Studiematerial i Moodle. En del material finns som videon. (not translated)

  Learning methods

  Praktiska ledda övningar i modelleringsprogrammet NX
  Antalet övningsuppgifter är 15.
  Efter varje färdigställd övning inlämnas en ritning för bedömning. Ritningen bör ha tillräcklig
  information för tillverkning av detaljen. (not translated)

  Objects, timing and methods of assessment

  Kursbedömningen baserar sig på ett tenttillfälle och övningsuppgifterna. Övningsuppgifterna
  bedöms och poängsätts.
  Kursbedömningens viktfaktorer:
  Övningsuppgifter 40%
  Tent 60% (not translated)

  Teaching language

  Swedish

  Timing

  24.10.2022 - 18.12.2022

  Enrollment date range

  15.06.2022 - 30.10.2022

  • 4 credits

  Group(s)

  • MAP22D-V
  • ÖH22MAP-LED-V
  • ÖH22ULA-LED-V

  Small group(s)

  • MAP22-S (Size: 30. Open university: 0.)
  • MAP22-Y (Size: 30. Open university: 0.)

  Teachers and responsibilities

  Kenneth Ehrström

  Additional information

  Programmet NX finns installerat på samtliga datorer i Technobotnia. Programmet kan installeras
  på egen dator och man använder då skolans licens via en VPN anslutning. (not translated)

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Mechanical and Production Engineering

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Kursen kan göras på distans. (not translated)

  Exam dates and retake possibilities

  Tenttilfälle vecka 50, 2022
  Omtent vecka 1, 2023
  Sista omtentstillfälle 20.1.2023 (not translated)

  Student's schedule and workload

  Förväntad arbetsmängd: 108 timmar varav 48 timmar är schemalagda (not translated)

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Känner till hur 3D-modeller byggs upp och kan självständigt skapa enkla 3D-modeller .
  Känner till samband mellan 3D-modell och ritning.
  Känner till hur 3D-modellering påverkar andra områden inom maskintekniken. (not translated)

  Assessment criteria – good (3-4)

  Kan självständigt bygga upp 3D-modeller.
  Förstår sambanden mellan 3D-modell och ritning samt kan behjälpligt dokumentera 3Dmodellen.
  Förstår principerna för parametrisering.
  Förmår behjälpligt beakta 3D-modelleringens påverkan på andra områden inom maskintekniken. (not translated)

  Assessment criteria – excellent (5)

  Kan självständigt bygga upp komplexa 3D-modeller.
  Kan självständigt dokumentera 3D-modeller enligt rittekniska regler.
  Kan tillämpa parametrisering i uppbyggnad av 3D-modeller.
  Förmår självständigt beakta 3D-modelleringens påverkan på andra områden inom maskintekniken (not translated)

•   Applied Mathematics MAP18MT04-3004 29.08.2022-16.10.2022  3 credits  (MAP21D-V) +-
  Competence objectives of the study unit

  - The student knows basic probability theory and can use different statistical distributions to solve problems
  - The student can statistically analyze and present a data material in a relevant way
  - The student can apply regression models to different data sets

  Prerequisites

  Functions an equations 1,
  Geometry and equations,
  Functions an equations 2
  Derivator and integrals

  Content of the study unit

  Statistics
  - descriptive statistics
  - probability theory
  - discrete and continuous distributions
  - Excel as a tool for analyzing data
  
  Curve fitting and regression
  - matrix calculus and linear algebra
  - linear regression - least squares method
  - linearization
  - mathematical software (Excel, Mathcad or other program) to build regression models

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Statistics and computational skills: Know the basics of statistics and can perform simple calculations
  Curve fitting and regression: Know the basics of regression analysis
  Mathematics software: Can use a software to solve basic problems

  Assessment criteria – good (3-4)

  Statistics and calculation skills: Is familiar with statistics and can perform relevant calculations
  Curve fitting and regression: Is familiar with the concept of regression and can perform curve fitting of technical models
  Mathematics software: Can use a software to solve applied problems

  Assessment criteria – excellent (5)

  Statistics and computational skills: Is well versed in statistics and can perform more advanced statistical calculations.
  Curve fitting and regression: Can independently perform curve fitting and regression models in advanced technical problems
  Mathematics software: Can use a software to solve advanced problems in mechanical engineering

  ---

  Person(s) in charge

  Kaj Rintanen

  Mode of delivery

  Face-to-face

  Learning material

  - Teorikompendium och övningsuppgifter
  - Relevanta läroböcker som rekommenderas vid kursstart (not translated)

  Learning methods

  Föreläsningar, räkneövningar och datorövningar (not translated)

  Objects, timing and methods of assessment

  Kursen avläggs genom tentamen
  Vitsordsskala
  10-13 p -> 1
  14-17 p -> 2
  18-21 p -> 3
  22-25 p -> 4
  26-30 p -> 5
  Eventuellt ordnas inlämningsuppgifter och minitest som kan ge bonuspoäng. (not translated)

  Teaching language

  Swedish

  Timing

  29.08.2022 - 16.10.2022

  Enrollment date range

  15.06.2022 - 11.09.2022

  • 3 credits

  Group(s)

  • MAP21D-V

  Small group(s)

  • MAP21-V-K (Size: 55. Open university: 0.)
  • MAP21-V-D (Size: 55. Open university: 0.)

  Teachers and responsibilities

  Tom Lillhonga

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Mechanical and Production Engineering

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Practical training and working life co-operation

  Föredrag av gäster från näringslivet (not translated)

  Exam dates and retake possibilities

  Meddelas vid kurstart och finns på Moodle (not translated)

  Student's schedule and workload

  Närstudier 36 timmar.
  Arbete på egen hand: 45 timmar. (not translated)

  Assessment criteria

  Uppfyller ej kraven för vitsordet 1. (not translated)

  Assessment criteria – satisfactory (1-2)

  Statistik och beräkningskompetenser: Känner till grunderna i statistik och kan utföra enkla beräkningar
  Kurvanspassning och regression: Känner till grunderna i regressionsanalyser
  Beräkningsprogram: Kan använda ett beräkningsprogram för lösning av grundläggande problem (not translated)

  Assessment criteria – good (3-4)

  Statistik och beräkningskompetenser: Är insatt i statistik och kan utföra relevanta beräkningar
  Kurvanspassning och regression: Är insatt i begreppet regression och kan utföra kurvanpassning av tekniska modeller
  Beräkningsprogram: Kan använda ett beräkningsprogram för lösning av tillämpade problem (not translated)

  Assessment criteria – excellent (5)

  Statistik och beräkningskompetenser: Är väl insatt i statistik och kan utföra mer avancerade statistiska kalkyler.
  Kurvanspassning och regression: Kan självständigt utföra kurvanpassningar och regressioner av mer avancerade tekniska modeller
  Beräkningsprogram: Kan använda fler än ett beräkningsprogram för lösning av problem inom maskintekniken (not translated)

•   Applied Software Tools TKV22TD01-3001 29.08.2022-27.11.2022  5 credits  (MAP22D-V, ...) +-
  Competence objectives of the study unit

  The student:
  - Should be familiar with the educational unit's computers, networks and IT services.
  - Should be familiar with Installation and configuration of software and services on the student's own computer.
  - Knows about office software and its use
  - Knows the software for technical calculation

  Prerequisites

  No prerequisites

  Content of the study unit

  Novia email, network and service
  Your computer and installation of software
  Tools and principles for online and hybrid learning
  Efficient and secure storage and file management
  Digital access to documents, reports and theses
  Basics in MathCad
  Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  - The student is familiar with and can use the education unit's computers, networks and services in their studies.
  - The student can download and install software needed for the studies to their own computer
  - The student can create presentations, reports, and simple calculations.
  - The student can perform calculations with formulas and simpler functions.
  - The student can produce simpler diagrams.
  - The student can perform simple calculations and produce graphs of mathematical functions.

  Assessment criteria – good (3-4)

  - The student can integrate the various services of the educational unit with each other.
  - The student can configure installed software to work optimally.
  - The student can independently create presentations, reports, and simple calculations.
  - The student can perform calculations with more advanced functions.
  - The student can produce more advanced diagrams.
  - Students can apply built-in functions to solve equations and mathematical problems.

  Assessment criteria – excellent (5)

  - The student can make full use of the equipment and services offered in his studies.
  - The student can independently download, install and configure software for the studies and can independently solve problems that arise.
  - The student can actively solve problems that arise when creating presentations, reports and simple calculations.
  - The student can independently and effectively solve more advanced calculation tasks
  - Students know the functions for solving problems with vectors and matrices.

  ---

  Person(s) in charge

  Kaj Rintanen

  Mode of delivery

  Face-to-face

  Learning material

  Allt kursmaterial finns i Moodle-kursen. Materialet blir tillgängligt när man anmält sig till kursen i Peppi. (not translated)

  Learning methods

  Föreläsningar och övningar i klass.
  Praktiska uppgifter (not translated)

  Objects, timing and methods of assessment

  Kursen består av fyra delar, Excel (2sp), Word (1sp), PowerPoint (1sp) samt MathCad (1sp).
  Alla delar skall vara godkända för godkänd kursprestation. Kursvitsordet är ett vägt medeltal av de enskilda delprestationerna. (not translated)

  Teaching language

  Swedish

  Timing

  29.08.2022 - 27.11.2022

  Enrollment date range

  15.06.2022 - 11.09.2022

  • 5 credits

  Group(s)

  • MAP22D-V
  • ÖH22MAP-LED-V
  • ÖH22ULA-LED-V

  Small group(s)

  • MAP22-S (Size: 30. Open university: 0.)
  • MAP22-Y (Size: 30. Open university: 0.)

  Teachers and responsibilities

  Jan Berglund, Mats Borg

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Mechanical and Production Engineering

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Exam dates and retake possibilities

  Period 1-2, läsår 2022-2023.
  Tidpunkterna för tentamen i kursens delar meddelas via kurssidan i Moodle. (not translated)

  Student's schedule and workload

  Sammanlagt 135 timmar, 60 timmar ges som kontaktundervisning och 75 timmar är självstudier. (not translated)

  Assessment criteria

  - Studeranden uppnår inte tillfredställande bedömningskriterier. (not translated)

  Assessment criteria – satisfactory (1-2)

  - Studeranden känner till och kan grundläggande använda utbildningsenhetens datorer, nätverk och tjänster i sina studier.
  - Studeranden kan ladda ner och installera programvara som behövs för studierna till sin egen dator.
  - Studeranden kan skapa presentationer, rapporter, och enkla kalkyler.
  - Studeranden kan utföra kalkyler med formler och enklare funktioner. Studeranden kan producera enklare diagram.
  - Studeranden kan utföra enklare beräkningar och producera grafer av matematiska funktioner i MathCad. (not translated)

  Assessment criteria – good (3-4)

  - Studeranden kan integrera utbildningsenhetens olika tjänster med varandra
  - Studeranden kan konfigurera installerad programvara så att den fungerar optimalt.
  - Studeranden kan självständigt skapa presentationer, rapporter, och enkla kalkyler.
  - Studeranden kan utföra kalkyler med mera avancerade funktioner. Studeranden kan producera mera avancerade diagram.
  - Studeranden kan tillämpa inbyggda funktioner i MathCad för lösning av ekvationer och matematiska problem. (not translated)

  Assessment criteria – excellent (5)

  - Studeranden kan mångsidigt utnyttja den utrustning och de tjänster som erbjuds i sina studier.
  - Studeranden kan självständigt ladda ner, installera och konfigurera programvara för studierna samt kan självständigt lösa problem som uppkommer.
  - Studeranden kan aktivt lösa problem som uppstår vid skapande av presentationer, rapporter och enklare kalkyler.
  - Studeranden kan självständigt och effektivt lösa mera avancerade kalkyleringsuppgifter.
  - Studeranden kan använda MathCad för att lösa mera avancerade problem (not translated)

•   Chemistry TKV22KE01-3002 01.01.2023-30.04.2023  3 credits  (PRE22D-V) +-
  Competence objectives of the study unit

  After completing the course, students are expected to
  1. understand the basic building blocks of materia
  2. express chemical reactions and to calculate the yield in a reaction based on limiting reagents
  3. have an overview of different chemical analysis methods
  4. have an overview of how they can apply their chemical knowledge in their own disciple
  5. have completed chemical laboratory work, analyzed and documented the result acquired during the work

  Prerequisites

  none

  Content of the study unit

  - basic chemical concepts
  - stoichiometry
  - reactions in aqueous solutions
  - gases
  - basic in electrochemistry
  - applications from various disciplines
  - laboratory work
  - laboratory safety
  Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  The student is able to give an overview of the meaning of concepts, models, theories and working methods used in chemistry

  Assessment criteria – good (3-4)

  The student is able to explain, in detail, the meaning of concepts, models, theories and working methods used in chemistry

  Assessment criteria – excellent (5)

  The student is able to explain, in a comprehensive and nuanced way, the meaning of concepts, models, theories and working methods used in chemistry

  ---

  Mode of delivery

  Face-to-face

  Learning material

  Allt kursmaterial finns på Moodle. (not translated)

  Learning methods

  Föreläsningar, räkneövningar, grupparbeten och laborationer. (not translated)

  Objects, timing and methods of assessment

  Kursen avläggs genom tentamen (max 30 p) och labbrapporter (max 12 p)
  För godkänt vitsord i kursen krävs totalt minst 14 p och godkända labbrapporter (minst 2 poäng/rapport).
  Vitsordsskalan är följande:
  14 p 1
  19 p 2
  24 p 3
  29 p 4
  34 p 5 (not translated)

  Teaching language

  Swedish

  Timing

  01.01.2023 - 30.04.2023

  Enrollment date range

  01.12.2022 - 31.12.2022

  • 3 credits

  Group(s)

  • PRE22D-V

  Teachers and responsibilities

  Tom Lillhonga

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Exam dates and retake possibilities

  Tidpunkten för kurstent meddelas vid kursens början.
  De framgår även i Moodle-kursen. (not translated)

  Student's schedule and workload

  Undervisning i klass : 38 h
  Laborationer: 10 h
  Tentamen : 2 h
  Självständigt arbete: 33 h
  Totalt : 81 timmar för 3 sp (27 h/sp) (not translated)

  Content scheduling

  Se schemat och Moodle-kursen (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1 (not translated)

  Assessment criteria – satisfactory (1-2)

  Den studerande kan översiktligt redogöra för innebörden av begrepp, modeller, teorier och arbetsmetoder som används inom kemi (not translated)

  Assessment criteria – good (3-4)

  Den studerande kan utförligt redogöra för innebörden av begrepp, modeller, teorier och arbetsmetoder som används inom kemi (not translated)

  Assessment criteria – excellent (5)

  Den studerande kan utförligt och nyanserat redogöra för innebörden av begrepp, modeller, teorier och arbetsmetoder som används inom kemi (not translated)

•   Chemistry TKV22KE01-3001 24.10.2022-18.12.2022  3 credits  (MAP22D-V, ...) +-
  Competence objectives of the study unit

  After completing the course, students are expected to
  1. understand the basic building blocks of materia
  2. express chemical reactions and to calculate the yield in a reaction based on limiting reagents
  3. have an overview of different chemical analysis methods
  4. have an overview of how they can apply their chemical knowledge in their own disciple
  5. have completed chemical laboratory work, analyzed and documented the result acquired during the work

  Prerequisites

  none

  Content of the study unit

  - basic chemical concepts
  - stoichiometry
  - reactions in aqueous solutions
  - gases
  - basic in electrochemistry
  - applications from various disciplines
  - laboratory work
  - laboratory safety
  Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  The student is able to give an overview of the meaning of concepts, models, theories and working methods used in chemistry

  Assessment criteria – good (3-4)

  The student is able to explain, in detail, the meaning of concepts, models, theories and working methods used in chemistry

  Assessment criteria – excellent (5)

  The student is able to explain, in a comprehensive and nuanced way, the meaning of concepts, models, theories and working methods used in chemistry

  ---

  Person(s) in charge

  Kaj Rintanen

  Mode of delivery

  Face-to-face

  Learning material

  Allt kursmaterial finns på Moodle. (not translated)

  Learning methods

  Föreläsningar, räkneövningar, grupparbeten och laborationer. (not translated)

  Objects, timing and methods of assessment

  Kursen avläggs genom tentamen (max 30 p) och labbrapporter (max 12 p)
  För godkänt vitsord i kursen krävs totalt minst 14 p och godkända labbrapporter (minst 2 poäng/rapport).
  Vitsordsskalan är följande:
  14 p 1
  19 p 2
  24 p 3
  29 p 4
  34 p 5 (not translated)

  Teaching language

  Swedish

  Timing

  24.10.2022 - 18.12.2022

  Enrollment date range

  15.06.2022 - 30.10.2022

  • 3 credits

  Group(s)

  • MAP22D-V
  • ÖH22MAP-LED-V
  • ÖH22ULA-LED-V

  Small group(s)

  • Group A (Size: 20. Open university: 0.)
  • Group B (Size: 20. Open university: 0.)
  • Group C (Size: 20. Open university: 0.)

  Teachers and responsibilities

  Tom Lillhonga

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Exam dates and retake possibilities

  Tidpunkten för kurstent meddelas vid kursens början.
  De framgår även i Moodle-kursen. (not translated)

  Student's schedule and workload

  Undervisning i klass : 38 h
  Laborationer: 10 h
  Tentamen : 2 h
  Självständigt arbete: 33 h
  Totalt : 81 timmar för 3 sp (27 h/sp) (not translated)

  Content scheduling

  Se schemat och Moodle-kursen (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1 (not translated)

  Assessment criteria – satisfactory (1-2)

  Den studerande kan översiktligt redogöra för innebörden av begrepp, modeller, teorier och arbetsmetoder som används inom kemi (not translated)

  Assessment criteria – good (3-4)

  Den studerande kan utförligt redogöra för innebörden av begrepp, modeller, teorier och arbetsmetoder som används inom kemi (not translated)

  Assessment criteria – excellent (5)

  Den studerande kan utförligt och nyanserat redogöra för innebörden av begrepp, modeller, teorier och arbetsmetoder som används inom kemi (not translated)

•   Chemistry TKV18KE01-3014 05.09.2022-13.11.2022  3 credits  (ELA20D-V) +-
  Competence objectives of the study unit

  After completing the course, students are expected to
  1. name, draw and describe the occurrence and reactions of pure substances in different mixtures
  2. calculate the yield in a reaction based on limiting reagents
  3. examine and document the properties and reactions of chemical substances in the laboratory

  Prerequisites

  none

  Content of the study unit

  - basic chemical concepts
  - stoichiometry
  - reactions in aqueous solutions
  - gases
  - applications from various disciplines

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  The student is able to give an overview of the meaning of concepts, models, theories and working methods used in chemistry

  Assessment criteria – good (3-4)

  The student is able to explain, in detail, the meaning of concepts, models, theories and working methods used in chemistry

  Assessment criteria – excellent (5)

  The student is able to explain, in a comprehensive and nuanced way, the meaning of concepts, models, theories and working methods used in chemistry

  ---

  Person(s) in charge

  Ronnie Sundsten

  Mode of delivery

  Face-to-face

  Learning material

  Allt kursmaterial finns på Moodle. (not translated)

  Learning methods

  Föreläsningar, räkneövningar, grupparbeten och laborationer. (not translated)

  Objects, timing and methods of assessment

  Kursen avläggs genom tentamen (max 30 p) och labbrapporter (max 12 p)
  För godkänt vitsord i kursen krävs totalt minst 14 p och godkända labbrapporter (minst 2 poäng/rapport).
  Vitsordsskalan är följande:
  14 p 1
  19 p 2
  24 p 3
  29 p 4
  34 p 5 (not translated)

  Teaching language

  Swedish

  Timing

  05.09.2022 - 13.11.2022

  Enrollment date range

  15.06.2022 - 11.09.2022

  • 3 credits

  Group(s)

  • ELA20D-V

  Small group(s)

  • ELA20-V-A (Size: 40. Open university: 0.)
  • ELA20-V-E (Size: 40. Open university: 0.)
  • ELA20-V-K (Size: 40. Open university: 0.)
  • ELA20-V-I (Size: 40. Open university: 0.)

  Teachers and responsibilities

  Tom Lillhonga

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Exam dates and retake possibilities

  Tidpunkten för kurstent meddelas vid kursens början.
  De framgår även i Moodle-kursen. (not translated)

  Student's schedule and workload

  Undervisning i klass : 38 h
  Laborationer: 10 h
  Tentamen : 2 h
  Självständigt arbete: 33 h
  Totalt : 81 timmar för 3 sp (27 h/sp) (not translated)

  Content scheduling

  Se schemat och Moodle-kursen (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1 (not translated)

  Assessment criteria – satisfactory (1-2)

  Den studerande kan översiktligt redogöra för innebörden av begrepp, modeller, teorier och arbetsmetoder som används inom kemi (not translated)

  Assessment criteria – good (3-4)

  Den studerande kan utförligt redogöra för innebörden av begrepp, modeller, teorier och arbetsmetoder som används inom kemi (not translated)

  Assessment criteria – excellent (5)

  Den studerande kan utförligt och nyanserat redogöra för innebörden av begrepp, modeller, teorier och arbetsmetoder som används inom kemi (not translated)

•   Chemistry TKV18KE01-3015 06.03.2023-30.04.2023  3 credits  (BYL21D-V, ...) +-
  Competence objectives of the study unit

  After completing the course, students are expected to
  1. name, draw and describe the occurrence and reactions of pure substances in different mixtures
  2. calculate the yield in a reaction based on limiting reagents
  3. examine and document the properties and reactions of chemical substances in the laboratory

  Prerequisites

  none

  Content of the study unit

  - basic chemical concepts
  - stoichiometry
  - reactions in aqueous solutions
  - gases
  - applications from various disciplines

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  The student is able to give an overview of the meaning of concepts, models, theories and working methods used in chemistry

  Assessment criteria – good (3-4)

  The student is able to explain, in detail, the meaning of concepts, models, theories and working methods used in chemistry

  Assessment criteria – excellent (5)

  The student is able to explain, in a comprehensive and nuanced way, the meaning of concepts, models, theories and working methods used in chemistry

  ---

  Person(s) in charge

  Leif Östman

  Mode of delivery

  Face-to-face

  Teaching language

  Swedish

  Timing

  06.03.2023 - 30.04.2023

  Enrollment date range

  28.12.2022 - 06.03.2023

  • 3 credits

  Group(s)

  • BYL21D-V
  • BYS21D-V

  Small group(s)

  • BYS21 - Grupp 1 (Size: 30. Open university: 0.)
  • BYS21 - Grupp 2 (Size: 30. Open university: 0.)
  • BYL21 - Grupp 3 (Size: 30. Open university: 0.)

  Teachers and responsibilities

  Tom Lillhonga

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

•   Degree Thesis MAP19EXA01-3002 01.08.2022-31.07.2023  15 credits  (MAP19D-V) +-
  Competence objectives of the study unit

  The degree thesis is part of the student's personal competence profile. In the degree thesis, the student will apply theoretical models to practical problems. The student must also show that they can handle complex problems independently within their area of competence and can work logically and methodically. The student should be able to work in a scientific way and use reference material and external sources of knowledge.

  Prerequisites

  The course Technical Reporting or equivalent knowledge and at least 120 credits of compulsory studies performed.

  Content of the study unit

  The thesis consists of a practical application and an associated theoretical analysis. The written design must follow Novia's writing instructions for a degree thesis. The thesis also includes a public presentation of the thesis and a written maturity test.
  
  The degree thesis can be started when students have sufficient knowledge in the form of approved professional studies and methodology studies. The work begins with students drawing up a work and / or research plan for the process.The plan presents at least subject choices, language, work title, a preliminary outline and schedule. The plan must be approved by the head of the degree program. In connection with the approval of the plan, supervisors are appointed for degree work.
  
  The degree thesis may consist of internal and / or external ordering work, collaborative projects or other work-related work. These may be, for example:
  - an investigation (eg investigation, survey, analysis and / or evaluation)
  - development work (eg development of working methods or activities)
  - product development (eg prototype or model)

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  The student's degree thesis satisfies the assessment criteria applied in this degree program at a satisfactory level. The assessment criteria can be found on the Moodle page for thesis work concerned year.

  Assessment criteria – good (3-4)

  The student's degree thesis satisfies the assessment criteria applied in this degree program at a good level. The assessment criteria can be found on the Moodle page for thesis work concerned year.

  Assessment criteria – excellent (5)

  The student's degree thesis satisfies the assessment criteria applied in this degree program at an excellent level. The assessment criteria can be found on the Moodle page for thesis work concerned year.

  ---

  Person(s) in charge

  Kaj Rintanen

  Mode of delivery

  Face-to-face

  Teaching language

  Swedish

  Timing

  01.08.2022 - 31.07.2023

  Enrollment date range

  02.12.2021 - 31.12.2021

  • 15 credits

  Group(s)

  • MAP19D-V

  Teachers and responsibilities

  Kaj Rintanen, Hanna Kuusisto, Åsa Fagerudd, Pernilla Fagerström

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Mechanical and Production Engineering

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

•   Derivatives and Integrals TKV22MA04-3004 04.03.2023-29.04.2023  3 credits  (MAP22D-V) +-
  Competence objectives of the study unit

  The student understands how, where and when to use the two basic concepts in mathematical analysis: derivation and integration.
  The student can apply derivation and integration to various problems within their own field of study.
  The student can use mathematical software to analyze measured data ​​or other collected data sets.

  Prerequisites

  Functions and equations 1,
  Geometry and vectors,
  Functions and equations 2.

  Content of the study unit

  - Limit calculations
  - Definition of derivatives
  - Tangent and linearisation
  - Derivation rules
  - Extreme value problems
  - Second derivative and convexity
  - Applications of derivatives in different fields
  - Numerical derivation
  - Primitive function (antiderivative)
  - Definition of integrals
  - Integration rules
  - Area calculations, volume integrals
  - Integral applications from own specialist area
  - Numerical integration
  - Mathematical software (Mathcad, Matlab, GeoGebra or equivalent) as a tool for solving problems

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Derivatives: Basic understanding of the concept of derivatives. Master simple derivation rules.
  Integrals: Basic understanding of the integral concept. Master simple integration rules.
  Modeling and numerical methods: Have some understanding of how to make a mathematical model and how it can be solved numerically.

  Assessment criteria – good (3-4)

  Derivatives: Is able to solve common types of extreme value problems using derivatives
  Integrals: Is able to calculate areas and volumes using integrals. Is able to solve mechanical problems using integrals.
  Modeling and numerical methods: Understands how to make a mathematical model and how it can be solved numerically.

  Assessment criteria – excellent (5)

  Derivatives: Can apply theory to more complicated applications and calculations.
  Integrals: Can apply the theory to more complicated applications and calculations (rotational surfaces, arc lengths, etc.).
  Modeling and numerical methods: Can construct and numerically solve more complicated models with calculation software.

  ---

  Mode of delivery

  Face-to-face

  Learning material

  Allt material finns i Moodlekursen.
  övningsuppgifter finns i e-math. (not translated)

  Learning methods

  Undervisningen sker i form av undervisning i klass enligt schemat i PEPPI.
  Minst 36 lektioner.
  
  Allt material som tillhör kursen finns i Moodle - övningsuppgifter finns i e-math
  Mathcad används som hjälpmedel under kursen.
  De studerande förväntas ha egen Mathcad installerad på sin dator. (not translated)

  Objects, timing and methods of assessment

  Kursen bedöms på basen av studerandes resultat i tenter ( max 50 p ) och på basen av studerandes aktivitet under kursen ( 10 p )
  
  Vitsordsskala :
  
  20 p = 1
  28 p = 2
  36 p = 3
  44 p = 4
  52 p = 5 (not translated)

  Teaching language

  Swedish

  Timing

  04.03.2023 - 29.04.2023

  Enrollment date range

  01.12.2022 - 16.03.2023

  • 3 credits

  Group(s)

  • MAP22D-V

  Small group(s)

  • MAP22-S (Group A) (Size: 30. Open university: 0.)
  • MAP22-Y (Group B) (Size: 30. Open university: 0.)

  Teachers and responsibilities

  Ing-Britt Rögård, Sofia Frilund

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management, Degree Programme in Land Surveying

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Godkända tenter samt gjorda inlämningsuppgifter.
  Tentdatumen finns i Moodlekursen. (not translated)

  Exam dates and retake possibilities

  Presenteras vid kursstart , finns i Moodlekursen. (not translated)

  Student's schedule and workload

  Undervisning i klass : minst 36 timmar
  Eget arbete : 45 timmar (not translated)

  Content scheduling

  Se lektionsplaneringen i Moodle (not translated)

  Assessment criteria

  Kraven för vitsordet 1 kunde inte uppfyllas (not translated)

  Assessment criteria – satisfactory (1-2)

  Grafisk förståelse av begreppet derivata.
  Behärskar enkla deriveringsregler.
  Kan tillämpa derivatakalkyl på enkla problem
  
  Grundläggande förståelse av begreppet integral.
  Behärskar enkla integreringsregler
  Kan tillämpa integralkalkyl på enkla problem.
  
  
  Har viss förståelse för hur man gör en matematisk modell och hur denna kan lösas numeriskt (not translated)

  Assessment criteria – good (3-4)

  Kan lösa extremvärdesproblem med hjälp av derivator
  
  Kan beräkna areor och volymer med hjälp av integraler. Kan lösa problem från fysiken med hjälpav integraler.
  
  Modellering och numeriska metoder
  Har god förståelse för hur man gör matematiska modeller och kan lösa dessa medberäkningsprogram (not translated)

  Assessment criteria – excellent (5)

  Kan tillämpa derivatakalkyler på mer komplicerade tillämpningar och beräkningar.
  
  Kan tillämpa integralkalkyler på mer komplicerade tillämpningar och beräkningar. ( Rotationsytor, båglängder )
  
  Modellering och numeriska metoder
  Kan konstruera och numeriskt lösa mer komplicerade modeller med beräkningsprogram (not translated)

•   Derivatives and Integrals TKV22MA04-3002 05.03.2023-30.04.2023  3 credits  (PRE22D-V) +-
  Competence objectives of the study unit

  The student understands how, where and when to use the two basic concepts in mathematical analysis: derivation and integration.
  The student can apply derivation and integration to various problems within their own field of study.
  The student can use mathematical software to analyze measured data ​​or other collected data sets.

  Prerequisites

  Functions and equations 1,
  Geometry and vectors,
  Functions and equations 2.

  Content of the study unit

  - Limit calculations
  - Definition of derivatives
  - Tangent and linearisation
  - Derivation rules
  - Extreme value problems
  - Second derivative and convexity
  - Applications of derivatives in different fields
  - Numerical derivation
  - Primitive function (antiderivative)
  - Definition of integrals
  - Integration rules
  - Area calculations, volume integrals
  - Integral applications from own specialist area
  - Numerical integration
  - Mathematical software (Mathcad, Matlab, GeoGebra or equivalent) as a tool for solving problems

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Derivatives: Basic understanding of the concept of derivatives. Master simple derivation rules.
  Integrals: Basic understanding of the integral concept. Master simple integration rules.
  Modeling and numerical methods: Have some understanding of how to make a mathematical model and how it can be solved numerically.

  Assessment criteria – good (3-4)

  Derivatives: Is able to solve common types of extreme value problems using derivatives
  Integrals: Is able to calculate areas and volumes using integrals. Is able to solve mechanical problems using integrals.
  Modeling and numerical methods: Understands how to make a mathematical model and how it can be solved numerically.

  Assessment criteria – excellent (5)

  Derivatives: Can apply theory to more complicated applications and calculations.
  Integrals: Can apply the theory to more complicated applications and calculations (rotational surfaces, arc lengths, etc.).
  Modeling and numerical methods: Can construct and numerically solve more complicated models with calculation software.

  ---

  Mode of delivery

  Face-to-face

  Learning material

  Allt material finns i Moodlekursen.
  övningsuppgifter finns i e-math. (not translated)

  Learning methods

  Undervisningen sker i form av undervisning i klass enligt schemat i PEPPI.
  Minst 36 lektioner.
  
  Allt material som tillhör kursen finns i Moodle - övningsuppgifter finns i e-math
  Mathcad används som hjälpmedel under kursen.
  De studerande förväntas ha egen Mathcad installerad på sin dator. (not translated)

  Objects, timing and methods of assessment

  Kursen bedöms på basen av studerandes resultat i tenter ( max 50 p ) och på basen av studerandes aktivitet under kursen ( 10 p )
  
  Vitsordsskala :
  
  20 p = 1
  28 p = 2
  36 p = 3
  44 p = 4
  52 p = 5 (not translated)

  Teaching language

  Swedish

  Timing

  05.03.2023 - 30.04.2023

  Enrollment date range

  01.12.2022 - 16.03.2023

  • 3 credits

  Group(s)

  • PRE22D-V

  Teachers and responsibilities

  Ing-Britt Rögård

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management, Degree Programme in Land Surveying

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Godkända tenter samt gjorda inlämningsuppgifter.
  Tentdatumen finns i Moodlekursen. (not translated)

  Exam dates and retake possibilities

  Presenteras vid kursstart , finns i Moodlekursen. (not translated)

  Student's schedule and workload

  Undervisning i klass : minst 36 timmar
  Eget arbete : 45 timmar (not translated)

  Content scheduling

  Se lektionsplaneringen i Moodle (not translated)

  Assessment criteria

  Kraven för vitsordet 1 kunde inte uppfyllas (not translated)

  Assessment criteria – satisfactory (1-2)

  Grafisk förståelse av begreppet derivata.
  Behärskar enkla deriveringsregler.
  Kan tillämpa derivatakalkyl på enkla problem
  
  Grundläggande förståelse av begreppet integral.
  Behärskar enkla integreringsregler
  Kan tillämpa integralkalkyl på enkla problem.
  
  
  Har viss förståelse för hur man gör en matematisk modell och hur denna kan lösas numeriskt (not translated)

  Assessment criteria – good (3-4)

  Kan lösa extremvärdesproblem med hjälp av derivator
  
  Kan beräkna areor och volymer med hjälp av integraler. Kan lösa problem från fysiken med hjälpav integraler.
  
  Modellering och numeriska metoder
  Har god förståelse för hur man gör matematiska modeller och kan lösa dessa medberäkningsprogram (not translated)

  Assessment criteria – excellent (5)

  Kan tillämpa derivatakalkyler på mer komplicerade tillämpningar och beräkningar.
  
  Kan tillämpa integralkalkyler på mer komplicerade tillämpningar och beräkningar. ( Rotationsytor, båglängder )
  
  Modellering och numeriska metoder
  Kan konstruera och numeriskt lösa mer komplicerade modeller med beräkningsprogram (not translated)

•   Derivatives and Integrals TKV22MA04-3003 06.03.2023-28.04.2023  3 credits  (BYS22D-V, ...) +-
  Competence objectives of the study unit

  The student understands how, where and when to use the two basic concepts in mathematical analysis: derivation and integration.
  The student can apply derivation and integration to various problems within their own field of study.
  The student can use mathematical software to analyze measured data ​​or other collected data sets.

  Prerequisites

  Functions and equations 1,
  Geometry and vectors,
  Functions and equations 2.

  Content of the study unit

  - Limit calculations
  - Definition of derivatives
  - Tangent and linearisation
  - Derivation rules
  - Extreme value problems
  - Second derivative and convexity
  - Applications of derivatives in different fields
  - Numerical derivation
  - Primitive function (antiderivative)
  - Definition of integrals
  - Integration rules
  - Area calculations, volume integrals
  - Integral applications from own specialist area
  - Numerical integration
  - Mathematical software (Mathcad, Matlab, GeoGebra or equivalent) as a tool for solving problems

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Derivatives: Basic understanding of the concept of derivatives. Master simple derivation rules.
  Integrals: Basic understanding of the integral concept. Master simple integration rules.
  Modeling and numerical methods: Have some understanding of how to make a mathematical model and how it can be solved numerically.

  Assessment criteria – good (3-4)

  Derivatives: Is able to solve common types of extreme value problems using derivatives
  Integrals: Is able to calculate areas and volumes using integrals. Is able to solve mechanical problems using integrals.
  Modeling and numerical methods: Understands how to make a mathematical model and how it can be solved numerically.

  Assessment criteria – excellent (5)

  Derivatives: Can apply theory to more complicated applications and calculations.
  Integrals: Can apply the theory to more complicated applications and calculations (rotational surfaces, arc lengths, etc.).
  Modeling and numerical methods: Can construct and numerically solve more complicated models with calculation software.

  ---

  Mode of delivery

  Face-to-face

  Learning material

  Allt material finns i Moodlekursen.
  övningsuppgifter finns i e-math. (not translated)

  Learning methods

  Undervisningen sker i form av undervisning i klass enligt schemat i PEPPI.
  Minst 36 lektioner i klass.
  
  Allt material som tillhör kursen finns i Moodle - övningsuppgifter finns i e-math
  Mathcad används som hjälpmedel under kursen.
  De studerande förväntas ha egen Mathcad installerad på sin dator. (not translated)

  Objects, timing and methods of assessment

  Kursen bedöms på basen av studerandes resultat i tenter ( max 50 p ) och på basen av studerandes aktivitet under kursen ( 10 p )
  
  Vitsordsskala :
  
  20 p = 1
  28 p = 2
  36 p = 3
  44 p = 4
  52 p = 5 (not translated)

  Teaching language

  Swedish

  Timing

  06.03.2023 - 28.04.2023

  Enrollment date range

  01.12.2022 - 16.03.2023

  • 3 credits

  Group(s)

  • BYS22D-V
  • BYL22D-V

  Small group(s)

  • BYS22-S (Size: 30. Open university: 0.)
  • BYS22-Y (Size: 30. Open university: 0.)
  • BYL22-S (Size: 30. Open university: 0.)
  • BYL22-Y (Size: 30. Open university: 0.)

  Teachers and responsibilities

  Ing-Britt Rögård

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management, Degree Programme in Land Surveying

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Godkända tenter samt gjorda inlämningsuppgifter.
  Tentdatumen finns i Moodlekursen. (not translated)

  Exam dates and retake possibilities

  Presenteras vid kursstart , finns i Moodlekursen. (not translated)

  Student's schedule and workload

  Undervisning i klass : minst 36 timmar
  Eget arbete : 45 timmar (not translated)

  Content scheduling

  Se lektionsplaneringen i Moodle (not translated)

  Assessment criteria

  Kraven för vitsordet 1 kunde inte uppfyllas (not translated)

  Assessment criteria – satisfactory (1-2)

  Grafisk förståelse av begreppet derivata.
  Behärskar enkla deriveringsregler.
  Kan tillämpa derivatakalkyl på enkla problem
  
  Grundläggande förståelse av begreppet integral.
  Behärskar enkla integreringsregler
  Kan tillämpa integralkalkyl på enkla problem.
  
  
  Har viss förståelse för hur man gör en matematisk modell och hur denna kan lösas numeriskt (not translated)

  Assessment criteria – good (3-4)

  Kan lösa extremvärdesproblem med hjälp av derivator
  
  Kan beräkna areor och volymer med hjälp av integraler. Kan lösa problem från fysiken med hjälpav integraler.
  
  Modellering och numeriska metoder
  Har god förståelse för hur man gör matematiska modeller och kan lösa dessa medberäkningsprogram (not translated)

  Assessment criteria – excellent (5)

  Kan tillämpa derivatakalkyler på mer komplicerade tillämpningar och beräkningar.
  
  Kan tillämpa integralkalkyler på mer komplicerade tillämpningar och beräkningar. ( Rotationsytor, båglängder )
  
  Modellering och numeriska metoder
  Kan konstruera och numeriskt lösa mer komplicerade modeller med beräkningsprogram (not translated)

•   Derivatives and Integrals TKV22MA04-3001 06.03.2023-30.04.2023  3 credits  (ÖH22ELA-LED-V, ...) +-
  Competence objectives of the study unit

  The student understands how, where and when to use the two basic concepts in mathematical analysis: derivation and integration.
  The student can apply derivation and integration to various problems within their own field of study.
  The student can use mathematical software to analyze measured data ​​or other collected data sets.

  Prerequisites

  Functions and equations 1,
  Geometry and vectors,
  Functions and equations 2.

  Content of the study unit

  - Limit calculations
  - Definition of derivatives
  - Tangent and linearisation
  - Derivation rules
  - Extreme value problems
  - Second derivative and convexity
  - Applications of derivatives in different fields
  - Numerical derivation
  - Primitive function (antiderivative)
  - Definition of integrals
  - Integration rules
  - Area calculations, volume integrals
  - Integral applications from own specialist area
  - Numerical integration
  - Mathematical software (Mathcad, Matlab, GeoGebra or equivalent) as a tool for solving problems

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Derivatives: Basic understanding of the concept of derivatives. Master simple derivation rules.
  Integrals: Basic understanding of the integral concept. Master simple integration rules.
  Modeling and numerical methods: Have some understanding of how to make a mathematical model and how it can be solved numerically.

  Assessment criteria – good (3-4)

  Derivatives: Is able to solve common types of extreme value problems using derivatives
  Integrals: Is able to calculate areas and volumes using integrals. Is able to solve mechanical problems using integrals.
  Modeling and numerical methods: Understands how to make a mathematical model and how it can be solved numerically.

  Assessment criteria – excellent (5)

  Derivatives: Can apply theory to more complicated applications and calculations.
  Integrals: Can apply the theory to more complicated applications and calculations (rotational surfaces, arc lengths, etc.).
  Modeling and numerical methods: Can construct and numerically solve more complicated models with calculation software.

  ---

  Person(s) in charge

  Ronnie Sundsten

  Mode of delivery

  Face-to-face

  Learning material

  Allt material finns på Moodle och i eMath (not translated)

  Learning methods

  Undervisningen sker i form av undervisning i klass enligt schemat i PEPPI. (not translated)

  Objects, timing and methods of assessment

  Bedömningsgrunderna diskuteras och slås fast vid kursstart. För godkänd kurs krävs 1/3 av totalpoängen. (not translated)

  Teaching language

  Swedish

  Timing

  06.03.2023 - 30.04.2023

  Enrollment date range

  01.12.2022 - 05.03.2023

  • 3 credits

  Group(s)

  • ÖH22ELA-LED-V
  • ELA22D-V

  Small group(s)

  • Group A (Size: 30. Open university: 0.)
  • Group B (Size: 30. Open university: 0.)
  • Group C (Size: 30. Open university: 0.)

  Teachers and responsibilities

  Anders Skjäl

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management, Degree Programme in Land Surveying

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Godkända tenter samt gjorda inlämningsuppgifter.
  Tentdatumen finns i Moodlekursen. (not translated)

  Exam dates and retake possibilities

  Presenteras vid kursstart , finns i Moodlekursen. (not translated)

  Student's schedule and workload

  Undervisning i klass : minst 36 timmar
  Eget arbete : 45 timmar (not translated)

  Content scheduling

  Se lektionsplaneringen i Moodle (not translated)

  Assessment criteria

  Kraven för vitsordet 1 kunde inte uppfyllas (not translated)

  Assessment criteria – satisfactory (1-2)

  Grafisk förståelse av begreppet derivata.
  Behärskar enkla deriveringsregler.
  Kan tillämpa derivatakalkyl på enkla problem
  
  Grundläggande förståelse av begreppet integral.
  Behärskar enkla integreringsregler
  Kan tillämpa integralkalkyl på enkla problem.
  
  
  Har viss förståelse för hur man gör en matematisk modell och hur denna kan lösas numeriskt (not translated)

  Assessment criteria – good (3-4)

  Kan lösa extremvärdesproblem med hjälp av derivator
  
  Kan beräkna areor och volymer med hjälp av integraler. Kan lösa problem från fysiken med hjälpav integraler.
  
  Modellering och numeriska metoder
  Har god förståelse för hur man gör matematiska modeller och kan lösa dessa medberäkningsprogram (not translated)

  Assessment criteria – excellent (5)

  Kan tillämpa derivatakalkyler på mer komplicerade tillämpningar och beräkningar.
  
  Kan tillämpa integralkalkyler på mer komplicerade tillämpningar och beräkningar. ( Rotationsytor, båglängder )
  
  Modellering och numeriska metoder
  Kan konstruera och numeriskt lösa mer komplicerade modeller med beräkningsprogram (not translated)

•   Differential Equations TKV18MA05-3020 29.08.2022-31.10.2022  3 credits  (ELA21D-V) +-
  Competence objectives of the study unit

  After completing the course, the student can use differential equations to model and solve technical problems.

  Prerequisites

  Functions and Equations 1,
  Geometry and Vectors,
  Functions and Equations 2,
  Derivatives and Integrals.

  Content of the study unit

  - Modeling problems using differential equations
  - Solving separable differential equations and first-order linear equations
  - Solving second-order differential equations with constant coefficients (oscillations)
  - Discretization and numerical solution of differential equations using Euler's method

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Recognizes differential equations. Understands the importance and use of differential equations in technical contexts.
  Can solve simple separable differential equations.
  Can solve homogeneous second-order differential equations by using the characteristic equation.
  Can use software to numerically solve simple differential equations.

  Assessment criteria – good (3-4)

  Can perform simple modeling and solve linear first-order differential equations.
  Can solve second-order differential equations with constant coefficients.
  Has mastered simple methods for numerically solving differential equations.

  Assessment criteria – excellent (5)

  Can perform more demanding modeling and solve first-order differential equations.
  Understands the oscillator equation and can use it to model mechanical and electrical oscillations.
  Can independently model and solve more demanding problems numerically.

  ---

  Person(s) in charge

  Ronnie Sundsten

  Mode of delivery

  Face-to-face

  Learning material

  Teori och exempel finns i Moodle , övningsuppgifterna finns i e-math
  Vi använder Excel och Mathcad under kursen.
  De studerande bör ha egen dator med Mathcad installerat. (not translated)

  Learning methods

  Föreläsningar och övningar på lektionstid.
  En del av övningarna kan vara i datasal.
  Deltenter , inlämningsuppgifter (not translated)

  Objects, timing and methods of assessment

  Kursen bedöms utgående från den studerandes prestationer i tenter och inlämningsuppgifter.
  Max poäng : 60 p
  Vitsordsskala :
  20 p 1
  28 p 2
  36 p 3
  44 p 4
  52 p 5 (not translated)

  Teaching language

  Swedish

  Timing

  29.08.2022 - 31.10.2022

  Enrollment date range

  15.06.2022 - 11.09.2022

  • 3 credits

  Group(s)

  • ELA21D-V

  Small group(s)

  • Group A (Size: 30. Open university: 0.)
  • Group B (Size: 30. Open university: 0.)
  • Group C (Size: 30. Open university: 0.)

  Teachers and responsibilities

  Tom Lillhonga

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Godkända deltenter och inlämningsuppgifter (not translated)

  Exam dates and retake possibilities

  Meddelas i början av kursen . Finns angivet i Moodle-kursen (not translated)

  Student's schedule and workload

  Undervisning i klass : 36 timmar
  Tenter : 4 timmar
  Eget arbete : 41 timmar (not translated)

  Content scheduling

  Lektionsplaneringen framgår i Moodle-kursen (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1 (not translated)

  Assessment criteria – satisfactory (1-2)

  Känner till vad en differentialekvation är. Kan lösa enkla separabla differentialekvationer
  Kan lösa homogena differentialekvationer av andra ordningen med hjälp av en karakteristisk ekvation
  Förstår betydelsen och användningen av differentialekvationer i tekniska sammanhang.
  Kan använda beräkningsprogram för att numeriskt lösa enkla differentialekvationer (not translated)

  Assessment criteria – good (3-4)

  Kan utföra enkla modelleringar och kan lösa linjära differentialekvationer av första ordningen.
  Kan lösa inhomogena differentialekvationer av andra ordningen med konstanta koefficienter
  Behärskar enkla metoder för numerisk lösning av differentialekvationer. ( Eulers metod ) (not translated)

  Assessment criteria – excellent (5)

  Kan utföra mer krävande modellering och lösning av differentialekvationer av första ordningen
  Förstår svängningsekvationen och kan utföra modellering av den.
  Kan självständigt modellera och numeriskt lösa mer krävande problemställningar. (not translated)

•   Differential Equations TKV18MA05-3022 02.01.2023-26.02.2023  3 credits  (MAP21D-V) +-
  Competence objectives of the study unit

  After completing the course, the student can use differential equations to model and solve technical problems.

  Prerequisites

  Functions and Equations 1,
  Geometry and Vectors,
  Functions and Equations 2,
  Derivatives and Integrals.

  Content of the study unit

  - Modeling problems using differential equations
  - Solving separable differential equations and first-order linear equations
  - Solving second-order differential equations with constant coefficients (oscillations)
  - Discretization and numerical solution of differential equations using Euler's method

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Recognizes differential equations. Understands the importance and use of differential equations in technical contexts.
  Can solve simple separable differential equations.
  Can solve homogeneous second-order differential equations by using the characteristic equation.
  Can use software to numerically solve simple differential equations.

  Assessment criteria – good (3-4)

  Can perform simple modeling and solve linear first-order differential equations.
  Can solve second-order differential equations with constant coefficients.
  Has mastered simple methods for numerically solving differential equations.

  Assessment criteria – excellent (5)

  Can perform more demanding modeling and solve first-order differential equations.
  Understands the oscillator equation and can use it to model mechanical and electrical oscillations.
  Can independently model and solve more demanding problems numerically.

  ---

  Person(s) in charge

  Kaj Rintanen

  Mode of delivery

  Face-to-face

  Learning material

  Teori och exempel finns i Moodle , övningsuppgifterna finns i e-math
  Vi använder lite Excel och mycket Mathcad under kursen.
  De studerande bör ha egen dator med Mathcad installerat. (not translated)

  Learning methods

  Föreläsningar och övningar i klass enligt schemat i PEPPI.
  En del av övningarna kan vara i datasal.
  Deltenter , inlämningsuppgifter (not translated)

  Objects, timing and methods of assessment

  Kursen bedöms utgående från den studerandes prestationer i tenter och inlämningsuppgifter.
  Max poäng : 60 p
  Vitsordsskala :
  20 p 1
  28 p 2
  36 p 3
  44 p 4
  52 p 5 (not translated)

  Teaching language

  Swedish

  Timing

  02.01.2023 - 26.02.2023

  Enrollment date range

  01.12.2022 - 09.01.2023

  • 3 credits

  Group(s)

  • MAP21D-V

  Teachers and responsibilities

  Ing-Britt Rögård

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Godkända deltenter och inlämningsuppgifter (not translated)

  Exam dates and retake possibilities

  Meddelas i början av kursen . Finns angivet i Moodle-kursen (not translated)

  Student's schedule and workload

  Undervisning i klass : 36 timmar
  Tenter : 4 timmar
  Eget arbete : 41 timmar (not translated)

  Content scheduling

  Lektionsplaneringen framgår i Moodle-kursen (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1 (not translated)

  Assessment criteria – satisfactory (1-2)

  Känner till vad en differentialekvation är. Kan lösa enkla separabla differentialekvationer
  Kan lösa homogena differentialekvationer av andra ordningen med hjälp av en karakteristisk ekvation
  Förstår betydelsen och användningen av differentialekvationer i tekniska sammanhang.
  Kan använda beräkningsprogram för att numeriskt lösa enkla differentialekvationer (not translated)

  Assessment criteria – good (3-4)

  Kan utföra enkla modelleringar och kan lösa linjära differentialekvationer av första ordningen.
  Kan lösa inhomogena differentialekvationer av andra ordningen med konstanta koefficienter
  Behärskar enkla metoder för numerisk lösning av differentialekvationer. ( Eulers metod ) (not translated)

  Assessment criteria – excellent (5)

  Kan utföra mer krävande modellering och lösning av differentialekvationer av första ordningen
  Förstår svängningsekvationen och kan utföra modellering av den.
  Kan självständigt modellera och numeriskt lösa mer krävande problemställningar. (not translated)

•   Differential Equations TKV18MA05-3023 02.01.2023-28.04.2023  3 credits  (BYL21D-V, ...) +-
  Competence objectives of the study unit

  After completing the course, the student can use differential equations to model and solve technical problems.

  Prerequisites

  Functions and Equations 1,
  Geometry and Vectors,
  Functions and Equations 2,
  Derivatives and Integrals.

  Content of the study unit

  - Modeling problems using differential equations
  - Solving separable differential equations and first-order linear equations
  - Solving second-order differential equations with constant coefficients (oscillations)
  - Discretization and numerical solution of differential equations using Euler's method

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Recognizes differential equations. Understands the importance and use of differential equations in technical contexts.
  Can solve simple separable differential equations.
  Can solve homogeneous second-order differential equations by using the characteristic equation.
  Can use software to numerically solve simple differential equations.

  Assessment criteria – good (3-4)

  Can perform simple modeling and solve linear first-order differential equations.
  Can solve second-order differential equations with constant coefficients.
  Has mastered simple methods for numerically solving differential equations.

  Assessment criteria – excellent (5)

  Can perform more demanding modeling and solve first-order differential equations.
  Understands the oscillator equation and can use it to model mechanical and electrical oscillations.
  Can independently model and solve more demanding problems numerically.

  ---

  Person(s) in charge

  Leif Östman

  Mode of delivery

  Face-to-face

  Learning material

  Teori och exempel finns i Moodle , övningsuppgifterna finns i e-math
  Vi använder lite Excel och mycket Mathcad under kursen.
  De studerande bör ha egen dator med Mathcad installerat. (not translated)

  Learning methods

  Föreläsningar och övningar i klass enligt schemat i PEPPI.
  En del av övningarna kan vara i datasal.
  Deltenter , inlämningsuppgifter (not translated)

  Objects, timing and methods of assessment

  Kursen bedöms utgående från den studerandes prestationer i tenter och inlämningsuppgifter.
  Max poäng : 60 p
  Vitsordsskala :
  20 p 1
  28 p 2
  36 p 3
  44 p 4
  52 p 5 (not translated)

  Teaching language

  Swedish

  Timing

  02.01.2023 - 28.04.2023

  Enrollment date range

  01.12.2022 - 19.03.2023

  • 3 credits

  Group(s)

  • BYL21D-V
  • BYS21D-V

  Teachers and responsibilities

  Ing-Britt Rögård

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Godkända deltenter och inlämningsuppgifter (not translated)

  Exam dates and retake possibilities

  Meddelas i början av kursen . Finns angivet i Moodle-kursen (not translated)

  Student's schedule and workload

  Undervisning i klass : 36 timmar
  Tenter : 4 timmar
  Eget arbete : 41 timmar (not translated)

  Content scheduling

  Lektionsplaneringen framgår i Moodle-kursen (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1 (not translated)

  Assessment criteria – satisfactory (1-2)

  Känner till vad en differentialekvation är. Kan lösa enkla separabla differentialekvationer
  Kan lösa homogena differentialekvationer av andra ordningen med hjälp av en karakteristisk ekvation
  Förstår betydelsen och användningen av differentialekvationer i tekniska sammanhang.
  Kan använda beräkningsprogram för att numeriskt lösa enkla differentialekvationer (not translated)

  Assessment criteria – good (3-4)

  Kan utföra enkla modelleringar och kan lösa linjära differentialekvationer av första ordningen.
  Kan lösa inhomogena differentialekvationer av andra ordningen med konstanta koefficienter
  Behärskar enkla metoder för numerisk lösning av differentialekvationer. ( Eulers metod ) (not translated)

  Assessment criteria – excellent (5)

  Kan utföra mer krävande modellering och lösning av differentialekvationer av första ordningen
  Förstår svängningsekvationen och kan utföra modellering av den.
  Kan självständigt modellera och numeriskt lösa mer krävande problemställningar. (not translated)

•   Electricity and Magnetism TKV22EL01-3002 04.03.2023-30.04.2023  3 credits  (PRE22D-V) +-
  Competence objectives of the study unit

  The student:
  - knows the basic concepts of electricity and magnetism
  - knows how to analyze simple DC circuits.

  Prerequisites

  No prerequisites

  Content of the study unit

  Charges, Coulomb's law and electric fields
  Potential and voltage
  Current, resistance, Ohm's law and Kirchhoff's laws
  Electrical power and energy
  Potential in electrical circuits
  Voltage sources
  
  Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  - Knows the interactions between electricity and magnetism
  - Knows how voltage sources and resistors act in a circuit
  - Can calculate the resistance of a conductor
  - Can calculate the heat effect in a resistor
  - Can calculate currents and voltages in simple circuits
  - Can calculate voltage and current using resistances

  Assessment criteria – good (3-4)

  - Can calculate resistance for serial and parallel connections
  - Can take into account the internal resistance in a voltage source
  - Can calculate potential in circuits
  - Can calculate currents with the help of Kirchoff laws.

  Assessment criteria – excellent (5)

  - Can calculate currents in a circuit with the help of superposition of voltage sources
  - Can calculate currents and voltages for Y- and deltaconnected resistances
  - Can optimize power for DC-circuits.

  ---

  Mode of delivery

  Face-to-face

  Learning material

  Compendium.

  Learning methods

  Lectures
  Practical calculation
  Simulations
  Self studies

  Objects, timing and methods of assessment

  The written exam has four questions with six points each. A total of 24 points. All questions are calculations.
  Six points in a task require complete calculation with the right values ​​and the right answer.
  Points are given for correct thinking, carelessness gives deductions.
  The home exercises can give a maximum of six points extra.

  Teaching language

  Swedish

  Timing

  04.03.2023 - 30.04.2023

  Enrollment date range

  01.12.2022 - 03.03.2023

  • 3 credits

  Group(s)

  • PRE22D-V

  Teachers and responsibilities

  Jan Berglund

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Written exam.

  Exam dates and retake possibilities

  April 2023.

  Student's schedule and workload

  Altogether 81 hours, of which 36 hours are given as classroom education.

  Assessment criteria

  Less than 33,3 % points from the written exam.

  Assessment criteria – satisfactory (1-2)

  Grade 1: 33,3 % - 47,2 % of total points.
  Grade 2: 47,3 % - 61,1 % of total points.

  Assessment criteria – good (3-4)

  Grade 3: 61,2 % - 74,9 % of total points.
  Grade 4: 75,0 % - 88,8 % of total points.

  Assessment criteria – excellent (5)

  88,8% of total points or more.

•   Electricity and Magnetism TKV22EL01-3001 05.09.2022-02.12.2022  3 credits  (ÖH22ELA-LED-V, ...) +-
  Competence objectives of the study unit

  The student:
  - knows the basic concepts of electricity and magnetism
  - knows how to analyze simple DC circuits.

  Prerequisites

  No prerequisites

  Content of the study unit

  Charges, Coulomb's law and electric fields
  Potential and voltage
  Current, resistance, Ohm's law and Kirchhoff's laws
  Electrical power and energy
  Potential in electrical circuits
  Voltage sources
  
  Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  - Knows the interactions between electricity and magnetism
  - Knows how voltage sources and resistors act in a circuit
  - Can calculate the resistance of a conductor
  - Can calculate the heat effect in a resistor
  - Can calculate currents and voltages in simple circuits
  - Can calculate voltage and current using resistances

  Assessment criteria – good (3-4)

  - Can calculate resistance for serial and parallel connections
  - Can take into account the internal resistance in a voltage source
  - Can calculate potential in circuits
  - Can calculate currents with the help of Kirchoff laws.

  Assessment criteria – excellent (5)

  - Can calculate currents in a circuit with the help of superposition of voltage sources
  - Can calculate currents and voltages for Y- and deltaconnected resistances
  - Can optimize power for DC-circuits.

  ---

  Person(s) in charge

  Ronnie Sundsten

  Mode of delivery

  Face-to-face

  Learning material

  Compendium.

  Learning methods

  Lectures
  Practical calculation
  Simulations
  Self studies
  Home exercises

  Objects, timing and methods of assessment

  The written exam has four questions with six points each. A total of 24 points. All questions are calculations.
  Six points in a task require complete calculation with the right values ​​and the right answer.
  Points are given for correct thinking, carelessness gives deductions.
  The home exercises can give a maximum of six points extra.

  Teaching language

  Swedish

  Timing

  05.09.2022 - 02.12.2022

  Enrollment date range

  15.06.2022 - 11.09.2022

  • 3 credits

  Group(s)

  • ÖH22ELA-LED-V
  • ELA22D-V

  Small group(s)

  • ELA22-V-S (Size: 45. Open university: 0.)
  • ELA22-V-Y (Size: 45. Open university: 0.)

  Teachers and responsibilities

  Ronnie Sundsten

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Written exam with possibility to get extra points from the home exercises.

  Exam dates and retake possibilities

  Week 40.

  Student's schedule and workload

  Altogether 81 hours, of which 36 hours are given as classroom education. Six weeks with three two-hour lectures per week.

  Assessment criteria

  Less than 8 points from the written exam.

  Assessment criteria – satisfactory (1-2)

  Grade 1: 8 - 11,5 points.
  Grade 2: 12 - 15,5 points.

  Assessment criteria – good (3-4)

  Grade 3: 16 - 19,5 points.
  Grade 4: 20 - 23,5 points.

  Assessment criteria – excellent (5)

  24 points and more.

•   Electricity and Magnetism TKV22EL01-3003 06.03.2023-30.04.2023  3 credits  (MAP22D-V) +-
  Competence objectives of the study unit

  The student:
  - knows the basic concepts of electricity and magnetism
  - knows how to analyze simple DC circuits.

  Prerequisites

  No prerequisites

  Content of the study unit

  Charges, Coulomb's law and electric fields
  Potential and voltage
  Current, resistance, Ohm's law and Kirchhoff's laws
  Electrical power and energy
  Potential in electrical circuits
  Voltage sources
  
  Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  - Knows the interactions between electricity and magnetism
  - Knows how voltage sources and resistors act in a circuit
  - Can calculate the resistance of a conductor
  - Can calculate the heat effect in a resistor
  - Can calculate currents and voltages in simple circuits
  - Can calculate voltage and current using resistances

  Assessment criteria – good (3-4)

  - Can calculate resistance for serial and parallel connections
  - Can take into account the internal resistance in a voltage source
  - Can calculate potential in circuits
  - Can calculate currents with the help of Kirchoff laws.

  Assessment criteria – excellent (5)

  - Can calculate currents in a circuit with the help of superposition of voltage sources
  - Can calculate currents and voltages for Y- and deltaconnected resistances
  - Can optimize power for DC-circuits.

  ---

  Person(s) in charge

  Kaj Rintanen

  Mode of delivery

  Face-to-face

  Learning material

  Compendium.

  Learning methods

  Lectures
  Practical calculation
  Simulations
  Self studies

  Objects, timing and methods of assessment

  The written exam has four questions with six points each. A total of 24 points. All questions are calculations.
  Six points in a task require complete calculation with the right values ​​and the right answer.
  Points are given for correct thinking, carelessness gives deductions.
  The home exercises can give a maximum of six points extra.

  Teaching language

  Swedish

  Timing

  06.03.2023 - 30.04.2023

  Enrollment date range

  01.12.2022 - 06.03.2023

  • 3 credits

  Group(s)

  • MAP22D-V

  Teachers and responsibilities

  Jan Berglund

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Written exam.

  Exam dates and retake possibilities

  April 2023.

  Student's schedule and workload

  Altogether 81 hours, of which 36 hours are given as classroom education.

  Assessment criteria

  Less than 33,3 % points from the written exam.

  Assessment criteria – satisfactory (1-2)

  Grade 1: 33,3 % - 47,2 % of total points.
  Grade 2: 47,3 % - 61,1 % of total points.

  Assessment criteria – good (3-4)

  Grade 3: 61,2 % - 74,9 % of total points.
  Grade 4: 75,0 % - 88,8 % of total points.

  Assessment criteria – excellent (5)

  88,8% of total points or more.

•   Finnish TKV18FI01-3020 04.03.2023-30.04.2023  2 credits  (MAP21D-V) +-
  Competence objectives of the study unit

  A good general vocabulary
  To master the central grammar
  Understanding general Finnish texts (factual texts, articles, etc.)
  Understanding and being able to write everyday life's letters and messages
  Orally coping with everyday situations

  Prerequisites

  Second stage course in Finnish.
  The starting level is B1, which corresponds to C in long Finnish (A-Finnish) or M in short Finnish (B-Finnish) in the student.

  Content of the study unit

  Repetition of the central grammar
  School and studies
  Working life
  Environment
  Daily situations

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5). In order to complete the course with an approved grade (grade 1), the student should have the knowledge required for level B1.1. Approved grades in this course are required to participate in the Työelämän suomi course.

  Assessment criteria – good (3-4)

  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5). In order to complete the course with an approved grade (grade 1), the student should have the knowledge required for level B1.1. Approved grades in this course are required to participate in the Työelämän suomi course.

  Assessment criteria – excellent (5)

  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5). In order to complete the course with an approved grade (grade 1), the student should have the knowledge required for level B1.1. Approved grades in this course are required to participate in the Työelämän suomi course.

  ---

  Mode of delivery

  Face-to-face

  Learning material

  Study material and compendium on Moodle.

  Learning methods

  - oral and written exercises
  - own work, assignments
  - shorter lectures
  - attendance 80 %

  Objects, timing and methods of assessment

  The assessment is based on
  - class activity
  - assignments
  - exam

  Teaching language

  Swedish

  Timing

  04.03.2023 - 30.04.2023

  Enrollment date range

  01.12.2022 - 03.03.2023

  • 2 credits

  Group(s)

  • MAP21D-V

  Teachers and responsibilities

  Pernilla Fagerström

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  -

  Exam dates and retake possibilities

  Exam during last lesson
  Retake on general re-examination

  Student's schedule and workload

  2 credits = 54 h work (c. 24 h in class, c. 30 h own work)

  Assessment criteria

  For the assessment of knowledge in Finnish as a second domestic, Common European Reference Framework for Languages ​​(CEFR) is used. Level B1 indicates satisfactory knowledge (grades 1–3) and level B2 or higher indicates good knowledge (grades 4–5). All universities in Finland follow the same assessment criteria.

  Assessment criteria – satisfactory (1-2)

  For the assessment of knowledge in Finnish as a second domestic, Common European Reference Framework for Languages ​​(CEFR) is used. Level B1 indicates satisfactory knowledge (grades 1–3) and level B2 or higher indicates good knowledge (grades 4–5). All universities in Finland follow the same assessment criteria.

  Assessment criteria – good (3-4)

  For the assessment of knowledge in Finnish as a second domestic, Common European Reference Framework for Languages ​​(CEFR) is used. Level B1 indicates satisfactory knowledge (grades 1–3) and level B2 or higher indicates good knowledge (grades 4–5). All universities in Finland follow the same assessment criteria.

  Assessment criteria – excellent (5)

  For the assessment of knowledge in Finnish as a second domestic, Common European Reference Framework for Languages ​​(CEFR) is used. Level B1 indicates satisfactory knowledge (grades 1–3) and level B2 or higher indicates good knowledge (grades 4–5). All universities in Finland follow the same assessment criteria.

•   Finnish TKV18FI01-3019 01.01.2023-04.03.2023  2 credits  (PRE21D-V) +-
  Competence objectives of the study unit

  A good general vocabulary
  To master the central grammar
  Understanding general Finnish texts (factual texts, articles, etc.)
  Understanding and being able to write everyday life's letters and messages
  Orally coping with everyday situations

  Prerequisites

  Second stage course in Finnish.
  The starting level is B1, which corresponds to C in long Finnish (A-Finnish) or M in short Finnish (B-Finnish) in the student.

  Content of the study unit

  Repetition of the central grammar
  School and studies
  Working life
  Environment
  Daily situations

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5). In order to complete the course with an approved grade (grade 1), the student should have the knowledge required for level B1.1. Approved grades in this course are required to participate in the Työelämän suomi course.

  Assessment criteria – good (3-4)

  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5). In order to complete the course with an approved grade (grade 1), the student should have the knowledge required for level B1.1. Approved grades in this course are required to participate in the Työelämän suomi course.

  Assessment criteria – excellent (5)

  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5). In order to complete the course with an approved grade (grade 1), the student should have the knowledge required for level B1.1. Approved grades in this course are required to participate in the Työelämän suomi course.

  ---

  Mode of delivery

  Face-to-face

  Learning material

  Study material and compendium on Moodle.

  Learning methods

  - oral and written exercises
  - own work, assignments
  - shorter lectures
  - attendance 80 %

  Objects, timing and methods of assessment

  The assessment is based on
  - class activity
  - assignments
  - exam

  Teaching language

  Swedish

  Timing

  01.01.2023 - 04.03.2023

  Enrollment date range

  01.12.2022 - 31.12.2022

  • 2 credits

  Group(s)

  • PRE21D-V

  Teachers and responsibilities

  Pernilla Fagerström

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  -

  Exam dates and retake possibilities

  Exam during last lesson
  Retake on general re-examination

  Student's schedule and workload

  2 credits = 54 h work (c. 24 h in class, c. 30 h own work)

  Assessment criteria

  For the assessment of knowledge in Finnish as a second domestic, Common European Reference Framework for Languages ​​(CEFR) is used. Level B1 indicates satisfactory knowledge (grades 1–3) and level B2 or higher indicates good knowledge (grades 4–5). All universities in Finland follow the same assessment criteria.

  Assessment criteria – satisfactory (1-2)

  For the assessment of knowledge in Finnish as a second domestic, Common European Reference Framework for Languages ​​(CEFR) is used. Level B1 indicates satisfactory knowledge (grades 1–3) and level B2 or higher indicates good knowledge (grades 4–5). All universities in Finland follow the same assessment criteria.

  Assessment criteria – good (3-4)

  For the assessment of knowledge in Finnish as a second domestic, Common European Reference Framework for Languages ​​(CEFR) is used. Level B1 indicates satisfactory knowledge (grades 1–3) and level B2 or higher indicates good knowledge (grades 4–5). All universities in Finland follow the same assessment criteria.

  Assessment criteria – excellent (5)

  For the assessment of knowledge in Finnish as a second domestic, Common European Reference Framework for Languages ​​(CEFR) is used. Level B1 indicates satisfactory knowledge (grades 1–3) and level B2 or higher indicates good knowledge (grades 4–5). All universities in Finland follow the same assessment criteria.

•   Finnish TKV18FI01-3017 24.10.2022-11.12.2022  2 credits  (ELA21D-V) +-
  Competence objectives of the study unit

  A good general vocabulary
  To master the central grammar
  Understanding general Finnish texts (factual texts, articles, etc.)
  Understanding and being able to write everyday life's letters and messages
  Orally coping with everyday situations

  Prerequisites

  Second stage course in Finnish.
  The starting level is B1, which corresponds to C in long Finnish (A-Finnish) or M in short Finnish (B-Finnish) in the student.

  Content of the study unit

  Repetition of the central grammar
  School and studies
  Working life
  Environment
  Daily situations

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5). In order to complete the course with an approved grade (grade 1), the student should have the knowledge required for level B1.1. Approved grades in this course are required to participate in the Työelämän suomi course.

  Assessment criteria – good (3-4)

  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5). In order to complete the course with an approved grade (grade 1), the student should have the knowledge required for level B1.1. Approved grades in this course are required to participate in the Työelämän suomi course.

  Assessment criteria – excellent (5)

  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5). In order to complete the course with an approved grade (grade 1), the student should have the knowledge required for level B1.1. Approved grades in this course are required to participate in the Työelämän suomi course.

  ---

  Person(s) in charge

  Ronnie Sundsten

  Mode of delivery

  Face-to-face

  Learning material

  Study material and compendium on Moodle.

  Learning methods

  - language of teaching Finnish
  - oral and written exercises
  - own work, assignments
  - shorter lectures
  - attendance 80 %

  Objects, timing and methods of assessment

  The assessment is based on
  - class activity
  - assignments
  - exam

  Teaching language

  Swedish

  Timing

  24.10.2022 - 11.12.2022

  Enrollment date range

  15.06.2022 - 24.10.2022

  • 2 credits

  Group(s)

  • ELA21D-V

  Small group(s)

  • ELA21-V-S (Size: 50. Open university: 0.)
  • ELA21-V-Y (Size: 50. Open university: 0.)

  Teachers and responsibilities

  Pernilla Fagerström

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  -

  Exam dates and retake possibilities

  Exam during last lesson
  Retake on general re-examination

  Student's schedule and workload

  2 credits = 54 h work (c. 24 h in class, c. 30 h own work)

  Assessment criteria

  For the assessment of knowledge in Finnish as a second domestic, Common European Reference Framework for Languages ​​(CEFR) is used. Level B1 indicates satisfactory knowledge (grades 1–3) and level B2 or higher indicates good knowledge (grades 4–5). All universities in Finland follow the same assessment criteria.

  Assessment criteria – satisfactory (1-2)

  For the assessment of knowledge in Finnish as a second domestic, Common European Reference Framework for Languages ​​(CEFR) is used. Level B1 indicates satisfactory knowledge (grades 1–3) and level B2 or higher indicates good knowledge (grades 4–5). All universities in Finland follow the same assessment criteria.

  Assessment criteria – good (3-4)

  For the assessment of knowledge in Finnish as a second domestic, Common European Reference Framework for Languages ​​(CEFR) is used. Level B1 indicates satisfactory knowledge (grades 1–3) and level B2 or higher indicates good knowledge (grades 4–5). All universities in Finland follow the same assessment criteria.

  Assessment criteria – excellent (5)

  For the assessment of knowledge in Finnish as a second domestic, Common European Reference Framework for Languages ​​(CEFR) is used. Level B1 indicates satisfactory knowledge (grades 1–3) and level B2 or higher indicates good knowledge (grades 4–5). All universities in Finland follow the same assessment criteria.

•   Finnish - Oral Skills YH10FI01-M-3096 01.08.2022-31.07.2023  (BYS20D-V, ...) +-
  Competence objectives of the study unit

  See syllabus

  Prerequisites

  See syllabus

  Content of the study unit

  See syllabus

  ---

  Mode of delivery

  Face-to-face

  Teaching language

  Swedish

  Timing

  01.08.2022 - 31.07.2023

  Enrollment date range

  15.06.2022 - 31.07.2023

  Group(s)

  • BYS20D-V
  • BYL20D-V
  • ELA20D-V
  • PRE20D-V
  • MAP20D-V

  Teachers and responsibilities

  Emilia Vikfors, Pernilla Fagerström

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

•   Finnish - Writing Skills YH10FI01-S-3090 01.08.2022-31.07.2023  (BYS20D-V, ...) +-
  Competence objectives of the study unit

  See syllabus

  Prerequisites

  See syllabus

  Content of the study unit

  See syllabus

  ---

  Mode of delivery

  Face-to-face

  Teaching language

  Swedish

  Timing

  01.08.2022 - 31.07.2023

  Enrollment date range

  15.06.2022 - 31.07.2023

  Group(s)

  • BYS20D-V
  • BYL20D-V
  • ELA20D-V
  • PRE20D-V
  • MAP20D-V

  Teachers and responsibilities

  Emilia Vikfors, Pernilla Fagerström

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

•   Finnish for Working Life TKV18FI02-3016 29.08.2022-30.10.2022  4 credits  (MAP20D-V) +-
  Competence objectives of the study unit

  To master the central vocabulary in the own field
  To deal with work-related situations orally and in writing
  To be able to write different types of texts and prepare different types of documents
  Understand and be able to make use of information from texts (articles, official documents etc.) concerning the own industry
  To be able to give a structured presentation in Finnish
  Being able to attend and lead a meeting in Finnish
  Orally and in writing master the central grammar

  Prerequisites

  Suomi

  Content of the study unit

  Working life and own field
  Entrepreneurship
  Business Communications
  Meeting technology and terminology
  Thesis abstract

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  The student must demonstrate knowledge of Finnish that is required by the law (424/2003) by public employees and should show satisfactory (grade 1, 2 or 3) or good (grade 4 or 5) ability to use Finnish in speech and writing.
  
  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5).
  
  Oral and written ability is assessed with different grades.
  
  All universities in Finland follow the same assessment criteria.

  Assessment criteria – good (3-4)

  The student must demonstrate knowledge of Finnish that is required by the law (424/2003) by public employees and should show satisfactory (grade 1, 2 or 3) or good (grade 4 or 5) ability to use Finnish in speech and writing.
  
  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5).
  
  Oral and written ability is assessed with different grades.
  
  All universities in Finland follow the same assessment criteria.

  Assessment criteria – excellent (5)

  The student must demonstrate knowledge of Finnish that is required by the law (424/2003) by public employees and should show satisfactory (grade 1, 2 or 3) or good (grade 4 or 5) ability to use Finnish in speech and writing.
  
  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5).
  
  Oral and written ability is assessed with different grades.
  
  All universities in Finland follow the same assessment criteria.

  ---

  Person(s) in charge

  Kaj Rintanen

  Mode of delivery

  Face-to-face

  Learning material

  Compendium + other material on Moodle.

  Learning methods

  - Language of teaching Finnish
  - Interactive lessons (attendance 75 %)
  - Shorter lectures
  - Pair and group discussions
  - Written exercises and written assignments
  - Own work
  - Presentation and opposition
  - Oral and written exam

  Objects, timing and methods of assessment

  Assessment on the basis of
  - Oral exam, oral presentation and other oral exercises (including kokous)
  - Written exams/tests
  - Written assignments
  - Class activity
  - Oral and written proficiency is assessed with different grades.

  Teaching language

  Swedish

  Timing

  29.08.2022 - 30.10.2022

  Enrollment date range

  15.06.2022 - 30.08.2022

  • 4 credits

  Group(s)

  • MAP20D-V

  Small group(s)

  • MAP20-V-K (Size: 55. Open university: 0.)
  • MAP20-V-B (Size: 55. Open university: 0.)
  • MAP20-V-D (Size: 55. Open university: 0.)

  Teachers and responsibilities

  Emilia Vikfors, Pernilla Fagerström

  Additional information

  Remember to also sign up for the written and oral parts:
  YH10FI01-M-3096
  YH10FI01-S-3090

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Bilingual students can take the course partially at a distance. Some occasions are mandatory for everyone. More info on the first lesson.

  Exam dates and retake possibilities

  Written exam during the last lesson.
  Retake on general re-examination.

  Student's schedule and workload

  4 credits = 108 h work (c. 42 h in class, c. 66 h own work)

  Assessment criteria

  The assessment of the knowledge in Finnish is based on the European Framework of Reference for Languages ​​(CEFR). Level B1 refers to satisfactory knowledge (grades 1–3) and level B2 refers to good knowledge (grades 4–5). The same assessment criteria are used at all universities in Finland. Level A2 or lower is failed.
  Oral and written proficiency is assessed with different grades.

  Assessment criteria – satisfactory (1-2)

  The assessment of the knowledge in Finnish is based on the European Framework of Reference for Languages ​​(CEFR). Level B1 refers to satisfactory knowledge (grades 1–3) and level B2 refers to good knowledge (grades 4–5). The same assessment criteria are used at all universities in Finland. Level A2 or lower is failed.
  Oral and written proficiency is assessed with different grades.

  Assessment criteria – good (3-4)

  The assessment of the knowledge in Finnish is based on the European Framework of Reference for Languages ​​(CEFR). Level B1 refers to satisfactory knowledge (grades 1–3) and level B2 refers to good knowledge (grades 4–5). The same assessment criteria are used at all universities in Finland. Level A2 or lower is failed.
  Oral and written proficiency is assessed with different grades.

  Assessment criteria – excellent (5)

  The assessment of the knowledge in Finnish is based on the European Framework of Reference for Languages ​​(CEFR). Level B1 refers to satisfactory knowledge (grades 1–3) and level B2 refers to good knowledge (grades 4–5). The same assessment criteria are used at all universities in Finland. Level A2 or lower is failed.
  Oral and written proficiency is assessed with different grades.

•   Finnish for Working Life TKV18FI02-3017 29.08.2022-30.10.2022  4 credits  (PRE20D-V) +-
  Competence objectives of the study unit

  To master the central vocabulary in the own field
  To deal with work-related situations orally and in writing
  To be able to write different types of texts and prepare different types of documents
  Understand and be able to make use of information from texts (articles, official documents etc.) concerning the own industry
  To be able to give a structured presentation in Finnish
  Being able to attend and lead a meeting in Finnish
  Orally and in writing master the central grammar

  Prerequisites

  Suomi

  Content of the study unit

  Working life and own field
  Entrepreneurship
  Business Communications
  Meeting technology and terminology
  Thesis abstract

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  The student must demonstrate knowledge of Finnish that is required by the law (424/2003) by public employees and should show satisfactory (grade 1, 2 or 3) or good (grade 4 or 5) ability to use Finnish in speech and writing.
  
  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5).
  
  Oral and written ability is assessed with different grades.
  
  All universities in Finland follow the same assessment criteria.

  Assessment criteria – good (3-4)

  The student must demonstrate knowledge of Finnish that is required by the law (424/2003) by public employees and should show satisfactory (grade 1, 2 or 3) or good (grade 4 or 5) ability to use Finnish in speech and writing.
  
  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5).
  
  Oral and written ability is assessed with different grades.
  
  All universities in Finland follow the same assessment criteria.

  Assessment criteria – excellent (5)

  The student must demonstrate knowledge of Finnish that is required by the law (424/2003) by public employees and should show satisfactory (grade 1, 2 or 3) or good (grade 4 or 5) ability to use Finnish in speech and writing.
  
  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5).
  
  Oral and written ability is assessed with different grades.
  
  All universities in Finland follow the same assessment criteria.

  ---

  Person(s) in charge

  Roger Nylund

  Mode of delivery

  Face-to-face

  Learning material

  Compendium + other material on Moodle.

  Learning methods

  - Language of teaching Finnish
  - Interactive lessons (attendance 75 %)
  - Shorter lectures
  - Pair and group discussions
  - Written exercises and written assignments
  - Own work
  - Presentation and opposition
  - Oral and written exam

  Objects, timing and methods of assessment

  Assessment on the basis of
  - Oral exam, oral presentation and other oral exercises (including kokous)
  - Written exams/tests
  - Written assignments
  - Class activity
  - Oral and written proficiency is assessed with different grades.

  Teaching language

  Swedish

  Timing

  29.08.2022 - 30.10.2022

  Enrollment date range

  15.06.2022 - 30.08.2022

  • 4 credits

  Group(s)

  • PRE20D-V

  Teachers and responsibilities

  Emilia Vikfors, Pernilla Fagerström

  Additional information

  Remember to also sign up for the written and oral parts:
  YH10FI01-M-3096
  YH10FI01-S-3090

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Bilingual students can take the course partially at a distance. Some occasions are mandatory for everyone. More info on the first lesson.

  Exam dates and retake possibilities

  Written exam during the last lesson.
  Retake on general re-examination.

  Student's schedule and workload

  4 credits = 108 h work (c. 42 h in class, c. 66 h own work)

  Assessment criteria

  The assessment of the knowledge in Finnish is based on the European Framework of Reference for Languages ​​(CEFR). Level B1 refers to satisfactory knowledge (grades 1–3) and level B2 refers to good knowledge (grades 4–5). The same assessment criteria are used at all universities in Finland. Level A2 or lower is failed.
  Oral and written proficiency is assessed with different grades.

  Assessment criteria – satisfactory (1-2)

  The assessment of the knowledge in Finnish is based on the European Framework of Reference for Languages ​​(CEFR). Level B1 refers to satisfactory knowledge (grades 1–3) and level B2 refers to good knowledge (grades 4–5). The same assessment criteria are used at all universities in Finland. Level A2 or lower is failed.
  Oral and written proficiency is assessed with different grades.

  Assessment criteria – good (3-4)

  The assessment of the knowledge in Finnish is based on the European Framework of Reference for Languages ​​(CEFR). Level B1 refers to satisfactory knowledge (grades 1–3) and level B2 refers to good knowledge (grades 4–5). The same assessment criteria are used at all universities in Finland. Level A2 or lower is failed.
  Oral and written proficiency is assessed with different grades.

  Assessment criteria – excellent (5)

  The assessment of the knowledge in Finnish is based on the European Framework of Reference for Languages ​​(CEFR). Level B1 refers to satisfactory knowledge (grades 1–3) and level B2 refers to good knowledge (grades 4–5). The same assessment criteria are used at all universities in Finland. Level A2 or lower is failed.
  Oral and written proficiency is assessed with different grades.

•   Finnish for Working Life TKV18FI02-3018 29.08.2022-04.12.2022  4 credits  (BYS20D-V, ...) +-
  Competence objectives of the study unit

  To master the central vocabulary in the own field
  To deal with work-related situations orally and in writing
  To be able to write different types of texts and prepare different types of documents
  Understand and be able to make use of information from texts (articles, official documents etc.) concerning the own industry
  To be able to give a structured presentation in Finnish
  Being able to attend and lead a meeting in Finnish
  Orally and in writing master the central grammar

  Prerequisites

  Suomi

  Content of the study unit

  Working life and own field
  Entrepreneurship
  Business Communications
  Meeting technology and terminology
  Thesis abstract

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  The student must demonstrate knowledge of Finnish that is required by the law (424/2003) by public employees and should show satisfactory (grade 1, 2 or 3) or good (grade 4 or 5) ability to use Finnish in speech and writing.
  
  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5).
  
  Oral and written ability is assessed with different grades.
  
  All universities in Finland follow the same assessment criteria.

  Assessment criteria – good (3-4)

  The student must demonstrate knowledge of Finnish that is required by the law (424/2003) by public employees and should show satisfactory (grade 1, 2 or 3) or good (grade 4 or 5) ability to use Finnish in speech and writing.
  
  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5).
  
  Oral and written ability is assessed with different grades.
  
  All universities in Finland follow the same assessment criteria.

  Assessment criteria – excellent (5)

  The student must demonstrate knowledge of Finnish that is required by the law (424/2003) by public employees and should show satisfactory (grade 1, 2 or 3) or good (grade 4 or 5) ability to use Finnish in speech and writing.
  
  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5).
  
  Oral and written ability is assessed with different grades.
  
  All universities in Finland follow the same assessment criteria.

  ---

  Person(s) in charge

  Leif Östman

  Mode of delivery

  Face-to-face

  Learning material

  Compendium + other material on Moodle.

  Learning methods

  - Language of teaching Finnish
  - Interactive lessons (attendance 75 %)
  - Shorter lectures
  - Pair and group discussions
  - Written exercises and written assignments
  - Own work
  - Presentation and opposition
  - Oral and written exam

  Objects, timing and methods of assessment

  Assessment on the basis of
  - Oral exam, oral presentation and other oral exercises (including kokous)
  - Written exams/tests
  - Written assignments
  - Class activity
  - Oral and written proficiency is assessed with different grades.

  Teaching language

  Swedish

  Timing

  29.08.2022 - 04.12.2022

  Enrollment date range

  15.06.2022 - 29.08.2022

  • 4 credits

  Group(s)

  • BYS20D-V
  • BYL20D-V

  Teachers and responsibilities

  Emilia Vikfors, Pernilla Fagerström

  Additional information

  Remember to also sign up for the written and oral parts:
  YH10FI01-M-3096
  YH10FI01-S-3090

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Bilingual students can take the course partially at a distance. Some occasions are mandatory for everyone. More info on the first lesson.

  Exam dates and retake possibilities

  Written exam during the last lesson.
  Retake on general re-examination.

  Student's schedule and workload

  4 credits = 108 h work (c. 42 h in class, c. 66 h own work)

  Assessment criteria

  The assessment of the knowledge in Finnish is based on the European Framework of Reference for Languages ​​(CEFR). Level B1 refers to satisfactory knowledge (grades 1–3) and level B2 refers to good knowledge (grades 4–5). The same assessment criteria are used at all universities in Finland. Level A2 or lower is failed.
  Oral and written proficiency is assessed with different grades.

  Assessment criteria – satisfactory (1-2)

  The assessment of the knowledge in Finnish is based on the European Framework of Reference for Languages ​​(CEFR). Level B1 refers to satisfactory knowledge (grades 1–3) and level B2 refers to good knowledge (grades 4–5). The same assessment criteria are used at all universities in Finland. Level A2 or lower is failed.
  Oral and written proficiency is assessed with different grades.

  Assessment criteria – good (3-4)

  The assessment of the knowledge in Finnish is based on the European Framework of Reference for Languages ​​(CEFR). Level B1 refers to satisfactory knowledge (grades 1–3) and level B2 refers to good knowledge (grades 4–5). The same assessment criteria are used at all universities in Finland. Level A2 or lower is failed.
  Oral and written proficiency is assessed with different grades.

  Assessment criteria – excellent (5)

  The assessment of the knowledge in Finnish is based on the European Framework of Reference for Languages ​​(CEFR). Level B1 refers to satisfactory knowledge (grades 1–3) and level B2 refers to good knowledge (grades 4–5). The same assessment criteria are used at all universities in Finland. Level A2 or lower is failed.
  Oral and written proficiency is assessed with different grades.

•   Finnish for Working Life TKV18FI02-3019 03.10.2022-18.12.2022  4 credits  (ELA20D-V) +-
  Competence objectives of the study unit

  To master the central vocabulary in the own field
  To deal with work-related situations orally and in writing
  To be able to write different types of texts and prepare different types of documents
  Understand and be able to make use of information from texts (articles, official documents etc.) concerning the own industry
  To be able to give a structured presentation in Finnish
  Being able to attend and lead a meeting in Finnish
  Orally and in writing master the central grammar

  Prerequisites

  Suomi

  Content of the study unit

  Working life and own field
  Entrepreneurship
  Business Communications
  Meeting technology and terminology
  Thesis abstract

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  The student must demonstrate knowledge of Finnish that is required by the law (424/2003) by public employees and should show satisfactory (grade 1, 2 or 3) or good (grade 4 or 5) ability to use Finnish in speech and writing.
  
  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5).
  
  Oral and written ability is assessed with different grades.
  
  All universities in Finland follow the same assessment criteria.

  Assessment criteria – good (3-4)

  The student must demonstrate knowledge of Finnish that is required by the law (424/2003) by public employees and should show satisfactory (grade 1, 2 or 3) or good (grade 4 or 5) ability to use Finnish in speech and writing.
  
  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5).
  
  Oral and written ability is assessed with different grades.
  
  All universities in Finland follow the same assessment criteria.

  Assessment criteria – excellent (5)

  The student must demonstrate knowledge of Finnish that is required by the law (424/2003) by public employees and should show satisfactory (grade 1, 2 or 3) or good (grade 4 or 5) ability to use Finnish in speech and writing.
  
  The Common European Reference Framework for Languages ​​(CEFR) is used to assess knowledge of Finnish. Levels B1.1 and B1.2 indicate satisfactory knowledge (grades 1-3) and level B2 or higher indicates good knowledge (grades 4-5).
  
  Oral and written ability is assessed with different grades.
  
  All universities in Finland follow the same assessment criteria.

  ---

  Person(s) in charge

  Ronnie Sundsten

  Mode of delivery

  Face-to-face

  Learning material

  Compendium + other material on Moodle.

  Learning methods

  - Language of teaching Finnish
  - Interactive lessons (attendance 75 %)
  - Shorter lectures
  - Pair and group discussions
  - Written exercises and written assignments
  - Own work
  - Presentation and opposition
  - Oral and written exam

  Objects, timing and methods of assessment

  Assessment on the basis of
  - Oral exam, oral presentation and other oral exercises (including kokous)
  - Written exams/tests
  - Written assignments
  - Class activity
  - Oral and written proficiency is assessed with different grades.

  Teaching language

  Swedish

  Timing

  03.10.2022 - 18.12.2022

  Enrollment date range

  15.06.2022 - 02.10.2022

  • 4 credits

  Group(s)

  • ELA20D-V

  Small group(s)

  • ELA20-V-A (Size: 40. Open university: 0.)
  • ELA20-V-E (Size: 40. Open university: 0.)
  • ELA20-V-K (Size: 40. Open university: 0.)
  • ELA20-V-I (Size: 40. Open university: 0.)

  Teachers and responsibilities

  Emilia Vikfors, Pernilla Fagerström

  Additional information

  Remember to also sign up for the written and oral parts:
  YH10FI01-M-3096
  YH10FI01-S-3090

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Bilingual students can take the course partially at a distance. Some occasions are mandatory for everyone. More info on the first lesson.

  Exam dates and retake possibilities

  Written exam during the last lesson.
  Retake on general re-examination.

  Student's schedule and workload

  4 credits = 108 h work (c. 42 h in class, c. 66 h own work)

  Assessment criteria

  The assessment of the knowledge in Finnish is based on the European Framework of Reference for Languages ​​(CEFR). Level B1 refers to satisfactory knowledge (grades 1–3) and level B2 refers to good knowledge (grades 4–5). The same assessment criteria are used at all universities in Finland. Level A2 or lower is failed.
  Oral and written proficiency is assessed with different grades.

  Assessment criteria – satisfactory (1-2)

  The assessment of the knowledge in Finnish is based on the European Framework of Reference for Languages ​​(CEFR). Level B1 refers to satisfactory knowledge (grades 1–3) and level B2 refers to good knowledge (grades 4–5). The same assessment criteria are used at all universities in Finland. Level A2 or lower is failed.
  Oral and written proficiency is assessed with different grades.

  Assessment criteria – good (3-4)

  The assessment of the knowledge in Finnish is based on the European Framework of Reference for Languages ​​(CEFR). Level B1 refers to satisfactory knowledge (grades 1–3) and level B2 refers to good knowledge (grades 4–5). The same assessment criteria are used at all universities in Finland. Level A2 or lower is failed.
  Oral and written proficiency is assessed with different grades.

  Assessment criteria – excellent (5)

  The assessment of the knowledge in Finnish is based on the European Framework of Reference for Languages ​​(CEFR). Level B1 refers to satisfactory knowledge (grades 1–3) and level B2 refers to good knowledge (grades 4–5). The same assessment criteria are used at all universities in Finland. Level A2 or lower is failed.
  Oral and written proficiency is assessed with different grades.

•   Functions and Equations 2 TKV22MA03-3005 01.01.2023-04.03.2023  3 credits  (MAP22D-V) +-
  Competence objectives of the study unit

  The student :
  - is familiar with the concept of functions
  - is able to solve equations algebraically, graphically and numerically ( Equations with roots and absolute values, equations with complex solutions,
  exponential equations , equations with logarithms ,trigonometric equations )
  - Is able to apply a variety of mathematical models in problem solving.

  Prerequisites

  Functions and equations 1,
  Geometry and vectors

  Content of the study unit

  The concept of functions, graphs, inequalities
  Equations with roots
  Equations containing absolute values
  Equations with complex solutions
  Complex numbers ; rectangular form, polar form and power form
  Power functions, power equations
  Exponential functions and equations
  Logarithms, equations with logarithms
  Problems with exponential change
  Trigonometric functions, graphs
  Trigonometric equations
  
  Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Is able to extract information from graphs and understand basic properties about different types of functions
  Is able to solve simple exponential equations
  Is able to solve simple trigonometric equations
  Knows complex numbers and can perform simple calculations with them
  Have some understanding of how to use a mathematical model and how it can be solved.
  Master basic use of a calculation software.

  Assessment criteria – good (3-4)

  Is able to draw graphs for different types of functions and can define the domain and the range for the functions.
  Master the solution of ordinary exponential and logarithm equations
  Is able to rewrite trigonometric expressions and can solve common trigonometric equations
  Master the transformation of complex numbers between different forms
  Have a good understanding of how to use a mathematical model and how it can be solved.
  Master the use of calculation software.

  Assessment criteria – excellent (5)

  Master the basic properties of functions and can solve inequalities
  Master the solution of more demanding equations and problems containing exponential functions and logarithms
  Master the solution of more demanding trigonometric equations.
  Can apply complex numbers to solve more complicated problems
  Can design and solve more complicated models.
  Master advanced use of calculation software.

  ---

  Person(s) in charge

  Kaj Rintanen

  Mode of delivery

  Face-to-face

  Learning material

  Material finns i Moodle och i e-math (not translated)

  Learning methods

  Undervisningen sker som närtillfällen : 36 lektioner enligt schemat i PEPPI.
  Exempel och teori finns i Moodle.
  Övningsuppgifter finns i e-math.
  Mathcad används som hjälpmedel vid en del av beräkninagrna.
  
  De studerande förväntas ha Mathcad installerat på sin dator. (not translated)

  Objects, timing and methods of assessment

  Kursen bedöms på basen av prestationerna i tenter ( 50 p) samt aktivitet ( 10 p ).
  Maxpoäng totalt : 60 p
  Vitsordsskala :
  20 p - 1
  28 p - 2
  36 p - 3
  44 p - 4
  52 p - 5 (not translated)

  Teaching language

  Swedish

  Timing

  01.01.2023 - 04.03.2023

  Enrollment date range

  01.12.2022 - 09.01.2023

  • 3 credits

  Group(s)

  • MAP22D-V

  Small group(s)

  • MAP22-S (Group A) (Size: 30. Open university: 0.)
  • MAP22-Y (Group B) (Size: 30. Open university: 0.)

  Teachers and responsibilities

  Ing-Britt Rögård, Sofia Frilund

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Mechanical and Production Engineering

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Godkända tenter och gjorda räkneuppgifter. (not translated)

  Exam dates and retake possibilities

  Meddelas i samband med kursstart .
  Se kursen i Moodle (not translated)

  Student's schedule and workload

  Lektioner i klass : 36
  Därtill förväntas de studerande räkna på egen tid minst 45 timmar. (not translated)

  Assessment criteria

  Den studerande har inte uppfyllt kraven för ett godkänt vitsord 1 (not translated)

  Assessment criteria – satisfactory (1-2)

  Kan få fram information ur grafer och förstår grundläggande egenskaper om olika typer av funktioner
  
  Kan lösa enkla exponentialekvationer
  
  Kan lösa enkla trigonometriska ekvationer
  
  Känner till komplexa tal och kan utföra enkla beräkningar med dem
  
  Har viss förståelse för hur man använder en matematisk modell och hur denna kan lösas.
  
  Behärskar enkel användning av beräkningsprogram. (not translated)

  Assessment criteria – good (3-4)

  Kan rita grafer till olika typer av funktioner och kan bilda definitionsmängd och värdemängd.
  
  Behärskar lösning av vanliga exponentialekvationer och logaritmekvationer
  
  Behärskar omskrivningsregler samt lösning av vanliga trigonometriska ekvationer
  
  Behärskar omvandling av komplexa tal mellan olika former
  
  Har god förståelse för hur man använder en matematisk modell och hur denna kan lösas.
  
  Behärskar användning av beräkningsprogram (not translated)

  Assessment criteria – excellent (5)

  Behärskar funktionens grundläggande egenskaper
  
  Behärskar lösning av mera krävande ekvationer och problem som innehåller exponentialfunktioner och logaritmer
  
  Behärskar lösning av mer krävande trigonometriska ekvationer.
  
  Kan tillämpa komplexa tal för att lösa mer komplicerade problemställningar
  
  Kan konstruera och lösa mer komplicerade modeller.
  
  Behärskar krävande användning av beräkningsprogram (not translated)

•   General Energy Technology TKV18AE01-3019 06.03.2023-23.04.2023  3 credits  (MAP22D-V) +-
  Competence objectives of the study unit

  After completing the course, the student should be able to describe energy use, energy sources, energy conversion processes and energy technical equipment. The student should be able to assess these, at a basic level, from a technical, economic and sustainability point of view.

  Prerequisites

  Hydromechanics and Thermal Physics (recommended)

  Content of the study unit

  Energy use in Finland and globally
  Energy sources and energy production
  Energy engineering apparatus
  Energy conversion, storage and transport
  Fuels and combustion technology
  Combustion engines and other heat engines
  Power production
  Sustainability and environmental aspects of energy production
  Energy economy

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Can describe the usual energy sources and extraction methods.
  Can describe apparatus and central processes in energy production and energy use and can say where they are used.
  Can describe the main features of energy supply and use in Finland and globally.
  Can mention the most important environmental aspects of energy production and energy use.
  Can list the greenhouse gases and describe how and where they are emitted.
  Can explain the central cost components of energy production.

  Assessment criteria – good (3-4)

  Can compare different energy sources regarding properties and limitations.
  Can compare properties and limitations of equipment and processes in energy technology. Can explain the operating principle of energy engineering equipment.
  Can compare energy supply and consumption in Finland, neighboring countries and other important countries.
  Can name methods for reducing the environmental impact and can explain their operating principle.
  Can compare the climate impact fof different forms of energy production.
  Can compare the costs of the most common forms of energy production.

  Assessment criteria – excellent (5)

  Can describe development trends and be able to assess the development opportunities for new energy sources and new types of energy equipment.
  Can explain the underlying causes of differences in energy supply and energy use between different countries and regions.
  Can assess methods for reducing environmental impact from a technical and economic perspective.
  Can describe how the greenhouse effect works and can explain the most important mechanisms in the climate system.
  Can make a profitability calculation for simple energy-technical investments.

  ---

  Mode of delivery

  34% Face-to-face, 66% Distance learning

  Learning material

  Material på MOODLE
  
  Som bredvidläsning rekommenderas
  1) Boyle, Everett & Ramage: "Energy systems and sustainability: Power for a sustainable future",
  2) L. D. Danny Harvey: "Energy and the New Reality 2: Carbon-free Energy Supply" (not translated)

  Learning methods

  Föreläsningar (not translated)

  Objects, timing and methods of assessment

  Examinering sker genom moodleförhör i samband med lektionerna, inlämningsuppgifter och tentamen.
  Kursvitsordet baseras på totalpoängen från dessa. (not translated)

  Teaching language

  Swedish

  Timing

  06.03.2023 - 23.04.2023

  Enrollment date range

  01.12.2022 - 15.03.2023

  • 3 credits

  Group(s)

  • MAP22D-V

  Seats

  0 - 60

  Teachers and responsibilities

  Mats Borg

  Additional information

  - (not translated)

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Share of online studies

  2 credits

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  - (not translated)

  Practical training and working life co-operation

  - (not translated)

  Exam dates and retake possibilities

  Enligt schema på MOODLE (not translated)

  Internationa connections

  - (not translated)

  Student's schedule and workload

  Totalt 80 h fördelat på
  32 h föreläsningar och räkneövningar
  2 h tentamen
  46 h självstudier (not translated)

  Content scheduling

  Enligt schema på MOODLE (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1 (not translated)

  Assessment criteria – satisfactory (1-2)

  Kan beskriva de vanliga energikällorna och utvinningsmetoderna.
  Kan beskriva apparatur och centrala processer inom energiproduktion och energianvändning och kan nämna användningsområden för dessa.
  Kan beskriva huvuddragen i energiförsörjningen och energianvändningen i Finland och globalt.
  Kan nämna de viktigaste miljöaspekterna kring energiproduktion och energianvändning.
  Kan nämna växthusgaserna och beskriva hur och var de uppstår.
  Kan förklara de centrala kostnadskomponenterna i energiproduktionen. (not translated)

  Assessment criteria – good (3-4)

  Kan jämföra olika energikällor gällande egenskaper och begränsningar.
  Kan jämföra egenskaper och begränsningar för apparatur och processer inom energitekniken. Kan förklara funktionsprincipen hos energiteknisk apparatur.
  Kan jämföra energiförsörjning och energianvändning i Finland, grannländerna och andra centrala länder.
  Kan nämna metoder för att reducera miljöpåverkan och kan förklara deras funktionsprincip.
  Kan jämföra klimatpåverkan för olika energiproduktionsformer.
  Kan jämföra kostnaderna för de vanligaste energiproduktionsformerna. (not translated)

  Assessment criteria – excellent (5)

  Kan beskriva utvecklingstrender och kan bedöma utvecklingsmöjligheterna för nya energikällor och ny energiteknisk apparatur.
  Kan förklara de bakomliggande orsakerna till skillnader i energiförsörjning och energianvändning mellan olika länder och regioner.
  Kan bedöma metoder för att reducera miljöpåverkan ur tekniskt och ekonomiskt perspektiv.
  Kan beskriva hur växthuseffekten fungerar och kan förklara de viktigaste mekanismerna i klimatsystemet.
  Kan göra en lönsamhetskalkyl för enkla energitekniska investeringar. (not translated)

•   General Energy Technology TKV22AE01-3002 04.01.2023-18.01.2023  3 credits  (ÖH22FLEXING) +-
  Competence objectives of the study unit

  After completing the course, the student should be able to describe energy use, energy sources, energy conversion processes and energy technical equipment. The student should be able to assess these, at a basic level, from a technical, economic and sustainability point of view.

  Prerequisites

  Hydromechanics and Thermal Physics (recommended)

  Content of the study unit

  Energy use in Finland and globally
  Energy sources and energy production
  Energy engineering apparatus
  Energy conversion, storage and transport
  Fuels and combustion technology
  Combustion engines and other heat engines
  Power production
  Sustainability and environmental aspects of energy production
  Energy economy

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Can describe the usual energy sources and extraction methods.
  Can describe apparatus and central processes in energy production and energy use and can say where they are used.
  Can describe the main features of energy supply and use in Finland and globally.
  Can mention the most important environmental aspects of energy production and energy use.
  Can list the greenhouse gases and describe how and where they are emitted.
  Can explain the central cost components of energy production.

  Assessment criteria – good (3-4)

  Can compare different energy sources regarding properties and limitations.
  Can compare properties and limitations of equipment and processes in energy technology. Can explain the operating principle of energy engineering equipment.
  Can compare energy supply and consumption in Finland, neighboring countries and other important countries.
  Can name methods for reducing the environmental impact and can explain their operating principle.
  Can compare the climate impact fof different forms of energy production.
  Can compare the costs of the most common forms of energy production.

  Assessment criteria – excellent (5)

  Can describe development trends and be able to assess the development opportunities for new energy sources and new types of energy equipment.
  Can explain the underlying causes of differences in energy supply and energy use between different countries and regions.
  Can assess methods for reducing environmental impact from a technical and economic perspective.
  Can describe how the greenhouse effect works and can explain the most important mechanisms in the climate system.
  Can make a profitability calculation for simple energy-technical investments.

  ---

  Person(s) in charge

  Matts Nickull

  Mode of delivery

  Distance learning

  Learning material

  Material på MOODLE
  
  Som bredvidläsning rekommenderas
  1) Boyle, Everett & Ramage: "Energy systems and sustainability: Power for a sustainable future",
  2) L. D. Danny Harvey: "Energy and the New Reality 2: Carbon-free Energy Supply" (not translated)

  Learning methods

  Föreläsningar (till största delen inspelade) och räkneövningar (per distans) (not translated)

  Objects, timing and methods of assessment

  Examinering sker genom moodleförhör i samband med lektionerna, inlämningsuppgifter och eventuellt tentamen.
  Kursvitsordet baseras på totalpoängen från dessa. (not translated)

  Teaching language

  Swedish

  Timing

  04.01.2023 - 18.01.2023

  Enrollment date range

  01.12.2022 - 08.01.2023

  • 3 credits

  Group(s)

  • ÖH22FLEXING

  Seats

  0 - 120

  Teachers and responsibilities

  Mats Borg

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Share of online studies

  3 credits

  Assessment scale

  H-5

  Exam dates and retake possibilities

  Enligt schema på MOODLE (not translated)

  Student's schedule and workload

  Totalt 80 h fördelat på
  12 h tidsbundna föreläsningar och räkneövningar
  2 h tentamen
  66 h självstudier (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1 (not translated)

  Assessment criteria – satisfactory (1-2)

  Kan beskriva de vanliga energikällorna och utvinningsmetoderna.
  Kan beskriva apparatur och centrala processer inom energiproduktion och energianvändning och kan nämna användningsområden för dessa.
  Kan beskriva huvuddragen i energiförsörjningen och energianvändningen i Finland och globalt.
  Kan nämna de viktigaste miljöaspekterna kring energiproduktion och energianvändning.
  Kan nämna växthusgaserna och beskriva hur och var de uppstår.
  Kan förklara de centrala kostnadskomponenterna i energiproduktionen. (not translated)

  Assessment criteria – good (3-4)

  Kan jämföra olika energikällor gällande egenskaper och begränsningar.
  Kan jämföra egenskaper och begränsningar för apparatur och processer inom energitekniken. Kan förklara funktionsprincipen hos energiteknisk apparatur.
  Kan jämföra energiförsörjning och energianvändning i Finland, grannländerna och andra centrala länder.
  Kan nämna metoder för att reducera miljöpåverkan och kan förklara deras funktionsprincip.
  Kan jämföra klimatpåverkan för olika energiproduktionsformer.
  Kan jämföra kostnaderna för de vanligaste energiproduktionsformerna. (not translated)

  Assessment criteria – excellent (5)

  Kan beskriva utvecklingstrender och kan bedöma utvecklingsmöjligheterna för nya energikällor och ny energiteknisk apparatur.
  Kan förklara de bakomliggande orsakerna till skillnader i energiförsörjning och energianvändning mellan olika länder och regioner.
  Kan bedöma metoder för att reducera miljöpåverkan ur tekniskt och ekonomiskt perspektiv.
  Kan beskriva hur växthuseffekten fungerar och kan förklara de viktigaste mekanismerna i klimatsystemet.
  Kan göra en lönsamhetskalkyl för enkla energitekniska investeringar (not translated)

•   General Energy Technology TKV18AE01-3015 29.08.2022-16.10.2022  3 credits  (PRE21D-V) +-
  Competence objectives of the study unit

  After completing the course, the student should be able to describe energy use, energy sources, energy conversion processes and energy technical equipment. The student should be able to assess these, at a basic level, from a technical, economic and sustainability point of view.

  Prerequisites

  Hydromechanics and Thermal Physics (recommended)

  Content of the study unit

  Energy use in Finland and globally
  Energy sources and energy production
  Energy engineering apparatus
  Energy conversion, storage and transport
  Fuels and combustion technology
  Combustion engines and other heat engines
  Power production
  Sustainability and environmental aspects of energy production
  Energy economy

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Can describe the usual energy sources and extraction methods.
  Can describe apparatus and central processes in energy production and energy use and can say where they are used.
  Can describe the main features of energy supply and use in Finland and globally.
  Can mention the most important environmental aspects of energy production and energy use.
  Can list the greenhouse gases and describe how and where they are emitted.
  Can explain the central cost components of energy production.

  Assessment criteria – good (3-4)

  Can compare different energy sources regarding properties and limitations.
  Can compare properties and limitations of equipment and processes in energy technology. Can explain the operating principle of energy engineering equipment.
  Can compare energy supply and consumption in Finland, neighboring countries and other important countries.
  Can name methods for reducing the environmental impact and can explain their operating principle.
  Can compare the climate impact fof different forms of energy production.
  Can compare the costs of the most common forms of energy production.

  Assessment criteria – excellent (5)

  Can describe development trends and be able to assess the development opportunities for new energy sources and new types of energy equipment.
  Can explain the underlying causes of differences in energy supply and energy use between different countries and regions.
  Can assess methods for reducing environmental impact from a technical and economic perspective.
  Can describe how the greenhouse effect works and can explain the most important mechanisms in the climate system.
  Can make a profitability calculation for simple energy-technical investments.

  ---

  Person(s) in charge

  Roger Nylund

  Mode of delivery

  67% Face-to-face, 33% Distance learning

  Learning material

  Material på MOODLE
  
  Som bredvidläsning rekommenderas
  1) Boyle, Everett & Ramage: "Energy systems and sustainability: Power for a sustainable future",
  2) L. D. Danny Harvey: "Energy and the New Reality 2: Carbon-free Energy Supply" (not translated)

  Learning methods

  Föreläsningar (not translated)

  Objects, timing and methods of assessment

  Examinering sker genom moodleförhör i samband med lektionerna, inlämningsuppgifter och tentamen.
  Kursvitsordet baseras på totalpoängen från dessa. (not translated)

  Teaching language

  Swedish

  Timing

  29.08.2022 - 16.10.2022

  Enrollment date range

  15.06.2022 - 11.09.2022

  • 3 credits

  Group(s)

  • PRE21D-V

  Teachers and responsibilities

  Mats Borg

  Additional information

  - (not translated)

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Share of online studies

  1 credits

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  - (not translated)

  Practical training and working life co-operation

  - (not translated)

  Exam dates and retake possibilities

  Enligt schema på MOODLE (not translated)

  Internationa connections

  - (not translated)

  Student's schedule and workload

  Totalt 80 h fördelat på
  32 h föreläsningar och räkneövningar
  2 h tentamen
  46 h självstudier (not translated)

  Content scheduling

  Enligt schema på MOODLE (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1 (not translated)

  Assessment criteria – satisfactory (1-2)

  Kan beskriva de vanliga energikällorna och utvinningsmetoderna.
  Kan beskriva apparatur och centrala processer inom energiproduktion och energianvändning och kan nämna användningsområden för dessa.
  Kan beskriva huvuddragen i energiförsörjningen och energianvändningen i Finland och globalt.
  Kan nämna de viktigaste miljöaspekterna kring energiproduktion och energianvändning.
  Kan nämna växthusgaserna och beskriva hur och var de uppstår.
  Kan förklara de centrala kostnadskomponenterna i energiproduktionen. (not translated)

  Assessment criteria – good (3-4)

  Kan jämföra olika energikällor gällande egenskaper och begränsningar.
  Kan jämföra egenskaper och begränsningar för apparatur och processer inom energitekniken. Kan förklara funktionsprincipen hos energiteknisk apparatur.
  Kan jämföra energiförsörjning och energianvändning i Finland, grannländerna och andra centrala länder.
  Kan nämna metoder för att reducera miljöpåverkan och kan förklara deras funktionsprincip.
  Kan jämföra klimatpåverkan för olika energiproduktionsformer.
  Kan jämföra kostnaderna för de vanligaste energiproduktionsformerna. (not translated)

  Assessment criteria – excellent (5)

  Kan beskriva utvecklingstrender och kan bedöma utvecklingsmöjligheterna för nya energikällor och ny energiteknisk apparatur.
  Kan förklara de bakomliggande orsakerna till skillnader i energiförsörjning och energianvändning mellan olika länder och regioner.
  Kan bedöma metoder för att reducera miljöpåverkan ur tekniskt och ekonomiskt perspektiv.
  Kan beskriva hur växthuseffekten fungerar och kan förklara de viktigaste mekanismerna i klimatsystemet.
  Kan göra en lönsamhetskalkyl för enkla energitekniska investeringar. (not translated)

•   General Energy Technology TKV18AE01-3016 29.08.2022-16.10.2022  3 credits  (BYL21D-V, ...) +-
  Competence objectives of the study unit

  After completing the course, the student should be able to describe energy use, energy sources, energy conversion processes and energy technical equipment. The student should be able to assess these, at a basic level, from a technical, economic and sustainability point of view.

  Prerequisites

  Hydromechanics and Thermal Physics (recommended)

  Content of the study unit

  Energy use in Finland and globally
  Energy sources and energy production
  Energy engineering apparatus
  Energy conversion, storage and transport
  Fuels and combustion technology
  Combustion engines and other heat engines
  Power production
  Sustainability and environmental aspects of energy production
  Energy economy

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Can describe the usual energy sources and extraction methods.
  Can describe apparatus and central processes in energy production and energy use and can say where they are used.
  Can describe the main features of energy supply and use in Finland and globally.
  Can mention the most important environmental aspects of energy production and energy use.
  Can list the greenhouse gases and describe how and where they are emitted.
  Can explain the central cost components of energy production.

  Assessment criteria – good (3-4)

  Can compare different energy sources regarding properties and limitations.
  Can compare properties and limitations of equipment and processes in energy technology. Can explain the operating principle of energy engineering equipment.
  Can compare energy supply and consumption in Finland, neighboring countries and other important countries.
  Can name methods for reducing the environmental impact and can explain their operating principle.
  Can compare the climate impact fof different forms of energy production.
  Can compare the costs of the most common forms of energy production.

  Assessment criteria – excellent (5)

  Can describe development trends and be able to assess the development opportunities for new energy sources and new types of energy equipment.
  Can explain the underlying causes of differences in energy supply and energy use between different countries and regions.
  Can assess methods for reducing environmental impact from a technical and economic perspective.
  Can describe how the greenhouse effect works and can explain the most important mechanisms in the climate system.
  Can make a profitability calculation for simple energy-technical investments.

  ---

  Person(s) in charge

  Leif Östman

  Mode of delivery

  67% Face-to-face, 33% Distance learning

  Learning material

  Material på MOODLE
  
  Som bredvidläsning rekommenderas
  1) Boyle, Everett & Ramage: "Energy systems and sustainability: Power for a sustainable future",
  2) L. D. Danny Harvey: "Energy and the New Reality 2: Carbon-free Energy Supply" (not translated)

  Learning methods

  Föreläsningar (not translated)

  Objects, timing and methods of assessment

  Examinering sker genom moodleförhör i samband med lektionerna, inlämningsuppgifter och tentamen.
  Kursvitsordet baseras på totalpoängen från dessa. (not translated)

  Teaching language

  Swedish

  Timing

  29.08.2022 - 16.10.2022

  Enrollment date range

  15.06.2022 - 11.09.2022

  • 3 credits

  Group(s)

  • BYL21D-V
  • BYS21D-V

  Teachers and responsibilities

  Mats Borg

  Additional information

  - (not translated)

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Share of online studies

  1 credits

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  - (not translated)

  Practical training and working life co-operation

  - (not translated)

  Exam dates and retake possibilities

  Enligt schema på MOODLE (not translated)

  Internationa connections

  - (not translated)

  Student's schedule and workload

  Totalt 80 h fördelat på
  32 h föreläsningar och räkneövningar
  2 h tentamen
  46 h självstudier (not translated)

  Content scheduling

  Enligt schema på MOODLE (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1 (not translated)

  Assessment criteria – satisfactory (1-2)

  Kan beskriva de vanliga energikällorna och utvinningsmetoderna.
  Kan beskriva apparatur och centrala processer inom energiproduktion och energianvändning och kan nämna användningsområden för dessa.
  Kan beskriva huvuddragen i energiförsörjningen och energianvändningen i Finland och globalt.
  Kan nämna de viktigaste miljöaspekterna kring energiproduktion och energianvändning.
  Kan nämna växthusgaserna och beskriva hur och var de uppstår.
  Kan förklara de centrala kostnadskomponenterna i energiproduktionen. (not translated)

  Assessment criteria – good (3-4)

  Kan jämföra olika energikällor gällande egenskaper och begränsningar.
  Kan jämföra egenskaper och begränsningar för apparatur och processer inom energitekniken. Kan förklara funktionsprincipen hos energiteknisk apparatur.
  Kan jämföra energiförsörjning och energianvändning i Finland, grannländerna och andra centrala länder.
  Kan nämna metoder för att reducera miljöpåverkan och kan förklara deras funktionsprincip.
  Kan jämföra klimatpåverkan för olika energiproduktionsformer.
  Kan jämföra kostnaderna för de vanligaste energiproduktionsformerna. (not translated)

  Assessment criteria – excellent (5)

  Kan beskriva utvecklingstrender och kan bedöma utvecklingsmöjligheterna för nya energikällor och ny energiteknisk apparatur.
  Kan förklara de bakomliggande orsakerna till skillnader i energiförsörjning och energianvändning mellan olika länder och regioner.
  Kan bedöma metoder för att reducera miljöpåverkan ur tekniskt och ekonomiskt perspektiv.
  Kan beskriva hur växthuseffekten fungerar och kan förklara de viktigaste mekanismerna i klimatsystemet.
  Kan göra en lönsamhetskalkyl för enkla energitekniska investeringar. (not translated)

•   General Energy Technology TKV18AE01-3017 05.09.2022-11.12.2022  3 credits  (ET22D-V, ...) +-
  Competence objectives of the study unit

  After completing the course, the student should be able to describe energy use, energy sources, energy conversion processes and energy technical equipment. The student should be able to assess these, at a basic level, from a technical, economic and sustainability point of view.

  Prerequisites

  Hydromechanics and Thermal Physics (recommended)

  Content of the study unit

  Energy use in Finland and globally
  Energy sources and energy production
  Energy engineering apparatus
  Energy conversion, storage and transport
  Fuels and combustion technology
  Combustion engines and other heat engines
  Power production
  Sustainability and environmental aspects of energy production
  Energy economy

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Can describe the usual energy sources and extraction methods.
  Can describe apparatus and central processes in energy production and energy use and can say where they are used.
  Can describe the main features of energy supply and use in Finland and globally.
  Can mention the most important environmental aspects of energy production and energy use.
  Can list the greenhouse gases and describe how and where they are emitted.
  Can explain the central cost components of energy production.

  Assessment criteria – good (3-4)

  Can compare different energy sources regarding properties and limitations.
  Can compare properties and limitations of equipment and processes in energy technology. Can explain the operating principle of energy engineering equipment.
  Can compare energy supply and consumption in Finland, neighboring countries and other important countries.
  Can name methods for reducing the environmental impact and can explain their operating principle.
  Can compare the climate impact fof different forms of energy production.
  Can compare the costs of the most common forms of energy production.

  Assessment criteria – excellent (5)

  Can describe development trends and be able to assess the development opportunities for new energy sources and new types of energy equipment.
  Can explain the underlying causes of differences in energy supply and energy use between different countries and regions.
  Can assess methods for reducing environmental impact from a technical and economic perspective.
  Can describe how the greenhouse effect works and can explain the most important mechanisms in the climate system.
  Can make a profitability calculation for simple energy-technical investments.

  ---

  Person(s) in charge

  Ronnie Sundsten

  Mode of delivery

  Face-to-face

  Learning material

  Course documentation is within Moodle together with relevant teaching materials and reference documents

  Learning methods

  Competence objectives of the study unit
  After completing the course, the student should be able to describe energy use, energy sources, energy conversion processes and energy technical equipment. The student should be able to assess these, at a basic level, from a technical, economic and sustainability point of view.
  
  Format of delivery
  Lectures, and self-study
  
  Information and study materials are provided in Moodle for the course

  Objects, timing and methods of assessment

  The following criteria are used for evaluation:
  
  1. Moodle multichoice exam(s)
  2. Written exam
  
  The course grade is based on the total points from these.

  Teaching language

  English

  Timing

  05.09.2022 - 11.12.2022

  Enrollment date range

  15.06.2022 - 11.09.2022

  • 3 credits

  Group(s)

  • ET22D-V
  • ELA21D-V

  Small group(s)

  • ELA21-V-S (Size: 60. Open university: 0.)
  • ELA21-V-Y (Size: 60. Open university: 0.)
  • DDE (Size: 60. Open university: 0.)
  • ET120 (Size: 60. Open university: 0.)

  Teachers and responsibilities

  Philip Hollins

  Additional information

  -

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Practical training and working life co-operation

  -

  Exam dates and retake possibilities

  Moodle exams at week intervals
  Exams to be held in 48
  Resit exam held in 49
  
  Final resit exam to be held January 2023

  Internationa connections

  -

  Student's schedule and workload

  3 ETCS = 81 hours
  
  Contact teaching ~ 20 hr
  Independent studying and preparation ~ 60 hr

  Content scheduling

  - (not translated)

  Assessment criteria

  <40% of the maximum number of credits earned in the assignments

  Assessment criteria – satisfactory (1-2)

  40-59% (=1) or 60-69% (=2) of the maximum number of credits earned in the assignments respectively

  Assessment criteria – good (3-4)

  70-79% (=3) or 80-89% (=4) of the maximum number of credits earned in the examination respectively

  Assessment criteria – excellent (5)

  90-100% (=5) of the maximum number of credits earned in the examination respectively

•   Geometry and Vectors TKV22MA02-3004 15.02.2023-08.03.2023  3 credits  (ÖH22FLEXING) +-
  Competence objectives of the study unit

  The student :
  - is able to solve every kind of triangle ( both right angled triangles and others )
  - is able to calculate areas and volumes of figures and solids
  - is able to perform calculations with two-dimensional vectors and three-dimensional vectors.
  - is familiar with matrices and masters simply calculations with matrices

  Prerequisites

  No prerequisites

  Content of the study unit

  - Right angled triangles
  - Basic trigonometric functions (cosine, sine and tangent)
  - Angle units (degrees vs radians)
  - The sine and cosine formula
  - Uniformity and scales
  - Area- and volume caculations
  - Definition of the vector concept
  - Rules for vector operations
  - Dot product
  - Projections
  - Cross product
  - Introduction to matrices
  - MatchCad exercises
  
  Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Trigonometry: Master the trigonometry of right angled triangles
  Area and volume calculations: Can calculate areas and volumes of simple figures and bodies
  Vectors: Can perform calculations with two-dimensional vectors
  Matrices: Knows matrices and can perform simple calculations with them
  Models and problem solving: Have some understanding of how to use a mathematical model and how it can be solved.

  Assessment criteria – good (3-4)

  Trigonometry: Master the trigonometry of any triangle
  Area and volume calculations: Can calculate areas and volumes for more complicated figures and bodies
  Vectors: Can do basic calculations with three-dimensional vectors
  Matrices: Is able to calculate the value of a determinant
  Models and problem solving: Have a good understanding of how to use a mathematical model and how it can be solved.

  Assessment criteria – excellent (5)

  Trigonometry: Can apply the theory for solving more complicated problems
  Area and volume calculations: Can calculate areas and volumes for figures and bodies using vectors
  Vectors: Can apply vectors to more complicated problems and master the use of vectors in software programs.
  Matrices: Master the use of matrices in software programs
  Models and problem solving: Can apply mathematical models to technical problems.

  ---

  Person(s) in charge

  Matts Nickull

  Mode of delivery

  Face-to-face

  Learning material

  Allt kursmaterial finns i Moodle-kursen. Materialet blir tillgängligt när man anmält sig till kursen i Peppi.
  
  Maols tabellsamling, eller annan dylik tabellsamling, får användas under tentitllfällena.
  Under kursens gång används det digitala verktyget eMath. (not translated)

  Learning methods

  Schemalagda träffar ordnas åtminstone en gång per vecka. Under kursen förväntas studerande ta del av materialet på kurssidan och räkna uppgifterna i eMath på egen hand.
  Via kurssidan eller under träffarna har studerande möjlighet att ställa frågor. (not translated)

  Objects, timing and methods of assessment

  Kursen bedöms utgående från den studerandes prestationer i tentamen samt antalet räknade uppgifter i eMath.
  
  Tentamen kan ge max 30 poäng och det krävs minst 10 poäng för att bli godkänd.
  Räknade och godkända uppgifter kan ge max 30 poäng.
  I kursen krävs totalt minst 20 poäng för att bli godkänd (10 p från tentamen och 10 p för räknade, godkända uppgifter).
  
  Vitsordsskalan:
  20 p - 1
  28 p - 2
  36 p - 3
  44 p - 4
  52 p - 5 (not translated)

  Teaching language

  Swedish

  Timing

  15.02.2023 - 08.03.2023

  Enrollment date range

  01.12.2022 - 12.03.2023

  • 3 credits

  Group(s)

  • ÖH22FLEXING

  Teachers and responsibilities

  Sofia Frilund

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management, Degree Programme in Land Surveying

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Kursen bedöms med en tentamen samt med räknade och godkända uppgifter i eMath. (not translated)

  Exam dates and retake possibilities

  Tidpunkt för tentamen samt omtentamen meddelas vid kursens början.
  En studerande har rätt att tentera en kurs max 3 gånger. (not translated)

  Student's schedule and workload

  Undervisning i klass: åtminstone 12 h
  Tentamen: 4 h
  Eget arbete: 65 h
  Totalt: 81 h (not translated)

  Content scheduling

  Se kursens rekommenderade studietakt i Moodle. (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1 (not translated)

  Assessment criteria – satisfactory (1-2)

  Behärskar rätvinkliga triangelns trigonometri.
  Kan beräkna areor och volymer av enkla figurer och kroppar.
  Kan utföra beräkningar med tvådimensionella vektorer
  Har viss förståelse för hur man använder en matematisk modell och hur denna kan lösas. (not translated)

  Assessment criteria – good (3-4)

  Behärskar godtyckliga triangelns trigonometri.
  Kan beräkna areor och volymer för mer komplicerade figurer och kroppar.
  Kan grundläggande beräkningar med tre-dimensionella vektorer.
  Har god förståelse för hur man använder en matematisk modell och hur denna kan lösas. (not translated)

  Assessment criteria – excellent (5)

  Behärskar alla typer av trianglars trigonometri och kan lösa mer komplicerade problemställningar.
  Kan beräkna areor och volymer för figurer och kroppar analytiskt och med hjälp av vektorer.
  Kan tillämpa vektorer på mer komplicerade problemställningar och behärskar användning av vektorer i beräkningsprogram.
  Kan tillämpa matematiska modeller på tekniska problemställningar. (not translated)

•   Geometry and Vectors TKV22MA02-3001 07.11.2022-18.12.2022  3 credits  (PRE22D-V, ...) +-
  Competence objectives of the study unit

  The student :
  - is able to solve every kind of triangle ( both right angled triangles and others )
  - is able to calculate areas and volumes of figures and solids
  - is able to perform calculations with two-dimensional vectors and three-dimensional vectors.
  - is familiar with matrices and masters simply calculations with matrices

  Prerequisites

  No prerequisites

  Content of the study unit

  - Right angled triangles
  - Basic trigonometric functions (cosine, sine and tangent)
  - Angle units (degrees vs radians)
  - The sine and cosine formula
  - Uniformity and scales
  - Area- and volume caculations
  - Definition of the vector concept
  - Rules for vector operations
  - Dot product
  - Projections
  - Cross product
  - Introduction to matrices
  - MatchCad exercises
  
  Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Trigonometry: Master the trigonometry of right angled triangles
  Area and volume calculations: Can calculate areas and volumes of simple figures and bodies
  Vectors: Can perform calculations with two-dimensional vectors
  Matrices: Knows matrices and can perform simple calculations with them
  Models and problem solving: Have some understanding of how to use a mathematical model and how it can be solved.

  Assessment criteria – good (3-4)

  Trigonometry: Master the trigonometry of any triangle
  Area and volume calculations: Can calculate areas and volumes for more complicated figures and bodies
  Vectors: Can do basic calculations with three-dimensional vectors
  Matrices: Is able to calculate the value of a determinant
  Models and problem solving: Have a good understanding of how to use a mathematical model and how it can be solved.

  Assessment criteria – excellent (5)

  Trigonometry: Can apply the theory for solving more complicated problems
  Area and volume calculations: Can calculate areas and volumes for figures and bodies using vectors
  Vectors: Can apply vectors to more complicated problems and master the use of vectors in software programs.
  Matrices: Master the use of matrices in software programs
  Models and problem solving: Can apply mathematical models to technical problems.

  ---

  Person(s) in charge

  Kaj Rintanen

  Mode of delivery

  Face-to-face

  Learning material

  Allt kursmaterial finns i Moodle-kursen. Materialet blir tillgängligt när man anmält sig till kursen i Peppi.
  Vid anmälning till kursen bör studerande välja rätt undergrupp.
  
  Maols tabellsamling, eller annan dylik tabellsamling, får användas under tentitllfällena.
  Under kursens gång används det digitala verktyget eMath. (not translated)

  Learning methods

  Undervisningen sker i form av Flipped classroom, vilket betyder att studerande förväntas ta del av materialet i Moodle på egen hand innan lektionen.
  
  Under lektionstid görs räkneövningar i det digitala verktyget eMath under handledning av läraren.
  De studerande bör närvara på största delen av lektionerna. (not translated)

  Objects, timing and methods of assessment

  Kursen bedöms utgående från den studerandes prestationer i tentamen samt antalet räknade uppgifter i eMath.
  
  Tentamen kan ge max 30 poäng och det krävs minst 10 poäng för att bli godkänd.
  Räknade och godkända uppgifter kan ge max 30 poäng.
  I kursen krävs totalt minst 20 poäng för att bli godkänd.
  
  Vitsordsskalan:
  20 p - 1
  28 p - 2
  36 p - 3
  44 p - 4
  52 p - 5 (not translated)

  Teaching language

  Swedish

  Timing

  07.11.2022 - 18.12.2022

  Enrollment date range

  15.06.2022 - 20.11.2022

  • 3 credits

  Group(s)

  • PRE22D-V
  • ÖH22MAP-LED-V
  • MAP22D-V
  • ÖH22PRE-LED-V

  Small group(s)

  • Group A (MAP S + MAP Y) (Size: 40. Open university: 0.)
  • Group B (MAP Y + PRE Y) (Size: 40. Open university: 0.)
  • Group C (PRE S + PRE Y) (Size: 40. Open university: 0.)

  Teachers and responsibilities

  Ing-Britt Rögård, Sofia Frilund

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management, Degree Programme in Land Surveying

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Kursen bedöms med en tentamen samt med räknade och godkända uppgifter i eMath. (not translated)

  Exam dates and retake possibilities

  Tidpunkt för tentamen samt omtentamen meddelas vid kursens början.
  En studerande har rätt att tentera en kurs max 3 gånger. (not translated)

  Student's schedule and workload

  Undervisning i klass: 36 timmar
  Tentamen: 4 timmar
  Eget arbete: 41 timmar
  Totalt: 81 timmar (not translated)

  Content scheduling

  Se kursens lektionsplanering i Moodle. (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1 (not translated)

  Assessment criteria – satisfactory (1-2)

  Behärskar rätvinkliga triangelns trigonometri.
  Kan beräkna areor och volymer av enkla figurer och kroppar.
  Kan utföra beräkningar med tvådimensionella vektorer
  Har viss förståelse för hur man använder en matematisk modell och hur denna kan lösas. (not translated)

  Assessment criteria – good (3-4)

  Behärskar godtyckliga triangelns trigonometri.
  Kan beräkna areor och volymer för mer komplicerade figurer och kroppar.
  Kan grundläggande beräkningar med tre-dimensionella vektorer.
  Har god förståelse för hur man använder en matematisk modell och hur denna kan lösas. (not translated)

  Assessment criteria – excellent (5)

  Behärskar alla typer av trianglars trigonometri och kan lösa mer komplicerade problemställningar.
  Kan beräkna areor och volymer för figurer och kroppar analytiskt och med hjälp av vektorer.
  Kan tillämpa vektorer på mer komplicerade problemställningar och behärskar användning av vektorer i beräkningsprogram.
  Kan tillämpa matematiska modeller på tekniska problemställningar. (not translated)

•   Geometry and Vectors TKV22MA02-3002 07.11.2022-18.12.2022  3 credits  (BYS22D-V, ...) +-
  Competence objectives of the study unit

  The student :
  - is able to solve every kind of triangle ( both right angled triangles and others )
  - is able to calculate areas and volumes of figures and solids
  - is able to perform calculations with two-dimensional vectors and three-dimensional vectors.
  - is familiar with matrices and masters simply calculations with matrices

  Prerequisites

  No prerequisites

  Content of the study unit

  - Right angled triangles
  - Basic trigonometric functions (cosine, sine and tangent)
  - Angle units (degrees vs radians)
  - The sine and cosine formula
  - Uniformity and scales
  - Area- and volume caculations
  - Definition of the vector concept
  - Rules for vector operations
  - Dot product
  - Projections
  - Cross product
  - Introduction to matrices
  - MatchCad exercises
  
  Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Trigonometry: Master the trigonometry of right angled triangles
  Area and volume calculations: Can calculate areas and volumes of simple figures and bodies
  Vectors: Can perform calculations with two-dimensional vectors
  Matrices: Knows matrices and can perform simple calculations with them
  Models and problem solving: Have some understanding of how to use a mathematical model and how it can be solved.

  Assessment criteria – good (3-4)

  Trigonometry: Master the trigonometry of any triangle
  Area and volume calculations: Can calculate areas and volumes for more complicated figures and bodies
  Vectors: Can do basic calculations with three-dimensional vectors
  Matrices: Is able to calculate the value of a determinant
  Models and problem solving: Have a good understanding of how to use a mathematical model and how it can be solved.

  Assessment criteria – excellent (5)

  Trigonometry: Can apply the theory for solving more complicated problems
  Area and volume calculations: Can calculate areas and volumes for figures and bodies using vectors
  Vectors: Can apply vectors to more complicated problems and master the use of vectors in software programs.
  Matrices: Master the use of matrices in software programs
  Models and problem solving: Can apply mathematical models to technical problems.

  ---

  Person(s) in charge

  Leif Östman

  Mode of delivery

  Face-to-face

  Learning material

  Allt kursmaterial finns i Moodle-kursen. Materialet blir tillgängligt när man anmält sig till kursen i Peppi.
  Vid anmälning till kursen bör studerande välja rätt undergrupp.
  
  Maols tabellsamling, eller annan dylik tabellsamling, får användas under tentitllfällena.
  Under kursens gång används det digitala verktyget eMath. (not translated)

  Learning methods

  Undervisningen sker i form av Flipped classroom, vilket betyder att studerande förväntas ta del av materialet i Moodle på egen hand innan lektionen.
  
  Under lektionstid görs räkneövningar i det digitala verktyget eMath under handledning av läraren.
  De studerande bör närvara på största delen av lektionerna. (not translated)

  Objects, timing and methods of assessment

  Kursen bedöms utgående från den studerandes prestationer i tentamen samt antalet räknade uppgifter i eMath.
  
  Tentamen kan ge max 30 poäng och det krävs minst 10 poäng för att bli godkänd.
  Räknade och godkända uppgifter kan ge max 30 poäng.
  I kursen krävs totalt minst 20 poäng för att bli godkänd.
  
  Vitsordsskalan:
  20 p - 1
  28 p - 2
  36 p - 3
  44 p - 4
  52 p - 5 (not translated)

  Teaching language

  Swedish

  Timing

  07.11.2022 - 18.12.2022

  Enrollment date range

  15.06.2022 - 20.11.2022

  • 3 credits

  Group(s)

  • BYS22D-V
  • BYL22D-V
  • ÖH22ULA-LED-V
  • ÖH22BYS-LED-V

  Small group(s)

  • BYS22-V-S (Size: 30. Open university: 0.)
  • BYS22-V-Y (Size: 30. Open university: 0.)
  • BYL22-V-S (Size: 30. Open university: 0.)
  • BYL22-V-Y (Size: 30. Open university: 0.)

  Teachers and responsibilities

  Ing-Britt Rögård

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management, Degree Programme in Land Surveying

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Kursen bedöms med en tentamen samt med räknade och godkända uppgifter i eMath. (not translated)

  Exam dates and retake possibilities

  Tidpunkt för tentamen samt omtentamen meddelas vid kursens början.
  En studerande har rätt att tentera en kurs max 3 gånger. (not translated)

  Student's schedule and workload

  Undervisning i klass: 36 timmar
  Tentamen: 4 timmar
  Eget arbete: 41 timmar
  Totalt: 81 timmar (not translated)

  Content scheduling

  Se kursens lektionsplanering i Moodle. (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1 (not translated)

  Assessment criteria – satisfactory (1-2)

  Behärskar rätvinkliga triangelns trigonometri.
  Kan beräkna areor och volymer av enkla figurer och kroppar.
  Kan utföra beräkningar med tvådimensionella vektorer
  Har viss förståelse för hur man använder en matematisk modell och hur denna kan lösas. (not translated)

  Assessment criteria – good (3-4)

  Behärskar godtyckliga triangelns trigonometri.
  Kan beräkna areor och volymer för mer komplicerade figurer och kroppar.
  Kan grundläggande beräkningar med tre-dimensionella vektorer.
  Har god förståelse för hur man använder en matematisk modell och hur denna kan lösas. (not translated)

  Assessment criteria – excellent (5)

  Behärskar alla typer av trianglars trigonometri och kan lösa mer komplicerade problemställningar.
  Kan beräkna areor och volymer för figurer och kroppar analytiskt och med hjälp av vektorer.
  Kan tillämpa vektorer på mer komplicerade problemställningar och behärskar användning av vektorer i beräkningsprogram.
  Kan tillämpa matematiska modeller på tekniska problemställningar. (not translated)

•   Geometry and Vectors TKV22MA02-3003 07.11.2022-18.12.2022  3 credits  (ELA22D-V, ...) +-
  Competence objectives of the study unit

  The student :
  - is able to solve every kind of triangle ( both right angled triangles and others )
  - is able to calculate areas and volumes of figures and solids
  - is able to perform calculations with two-dimensional vectors and three-dimensional vectors.
  - is familiar with matrices and masters simply calculations with matrices

  Prerequisites

  No prerequisites

  Content of the study unit

  - Right angled triangles
  - Basic trigonometric functions (cosine, sine and tangent)
  - Angle units (degrees vs radians)
  - The sine and cosine formula
  - Uniformity and scales
  - Area- and volume caculations
  - Definition of the vector concept
  - Rules for vector operations
  - Dot product
  - Projections
  - Cross product
  - Introduction to matrices
  - MatchCad exercises
  
  Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Trigonometry: Master the trigonometry of right angled triangles
  Area and volume calculations: Can calculate areas and volumes of simple figures and bodies
  Vectors: Can perform calculations with two-dimensional vectors
  Matrices: Knows matrices and can perform simple calculations with them
  Models and problem solving: Have some understanding of how to use a mathematical model and how it can be solved.

  Assessment criteria – good (3-4)

  Trigonometry: Master the trigonometry of any triangle
  Area and volume calculations: Can calculate areas and volumes for more complicated figures and bodies
  Vectors: Can do basic calculations with three-dimensional vectors
  Matrices: Is able to calculate the value of a determinant
  Models and problem solving: Have a good understanding of how to use a mathematical model and how it can be solved.

  Assessment criteria – excellent (5)

  Trigonometry: Can apply the theory for solving more complicated problems
  Area and volume calculations: Can calculate areas and volumes for figures and bodies using vectors
  Vectors: Can apply vectors to more complicated problems and master the use of vectors in software programs.
  Matrices: Master the use of matrices in software programs
  Models and problem solving: Can apply mathematical models to technical problems.

  ---

  Person(s) in charge

  Sofia Frilund

  Mode of delivery

  Face-to-face

  Learning material

  Allt kursmaterial finns i Moodle-kursen. Materialet blir tillgängligt när man anmält sig till kursen i Peppi.
  Vid anmälning till kursen bör studerande välja rätt undergrupp.
  
  Maols tabellsamling, eller annan dylik tabellsamling, får användas under tentitllfällena.
  Under kursens gång används det digitala verktyget eMath. (not translated)

  Learning methods

  Undervisningen sker i form av Flipped classroom, vilket betyder att studerande förväntas ta del av materialet på egen hand innan lektionen.
  
  Under lektionstid görs räkneövningar i det digitala verktyget eMath. (not translated)

  Objects, timing and methods of assessment

  Kursen bedöms utgående från den studerandes prestationer i tentamen samt antalet räknade uppgifter i eMath.
  
  Tentamen kan ge max 30 poäng och det krävs minst 10 poäng för att bli godkänd.
  Räknade och godkända uppgifter kan ge max 30 poäng.
  I kursen krävs totalt minst 20 poäng för att bli godkänd.
  
  Vitsordsskalan:
  20 p - 1
  28 p - 2
  36 p - 3
  44 p - 4
  52 p - 5 (not translated)

  Teaching language

  Swedish

  Timing

  07.11.2022 - 18.12.2022

  Enrollment date range

  15.06.2022 - 06.11.2022

  • 3 credits

  Group(s)

  • ELA22D-V
  • ÖH22ELA-LED-V

  Small group(s)

  • Group A (Size: 30. Open university: 0.)
  • Group B (Size: 30. Open university: 0.)
  • Group C (Size: 30. Open university: 0.)

  Teachers and responsibilities

  Sofia Frilund

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management, Degree Programme in Land Surveying

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Kursen bedöms med en tentamen samt med räknade och godkända uppgifter i eMath. (not translated)

  Exam dates and retake possibilities

  Tidpunkt för tentamen samt omtentamen meddelas vid kursens början.
  En studerande har rätt att tentera en kurs max 3 gånger. (not translated)

  Student's schedule and workload

  Undervisning i klass: 36 timmar
  Tentamen: 4 timmar
  Eget arbete: 41 timmar
  Totalt: 81 timmar (not translated)

  Content scheduling

  Se kursens lektionsplanering i Moodle. (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1 (not translated)

  Assessment criteria – satisfactory (1-2)

  Behärskar rätvinkliga triangelns trigonometri.
  Kan beräkna areor och volymer av enkla figurer och kroppar.
  Kan utföra beräkningar med tvådimensionella vektorer
  Har viss förståelse för hur man använder en matematisk modell och hur denna kan lösas. (not translated)

  Assessment criteria – good (3-4)

  Behärskar godtyckliga triangelns trigonometri.
  Kan beräkna areor och volymer för mer komplicerade figurer och kroppar.
  Kan grundläggande beräkningar med tre-dimensionella vektorer.
  Har god förståelse för hur man använder en matematisk modell och hur denna kan lösas. (not translated)

  Assessment criteria – excellent (5)

  Behärskar alla typer av trianglars trigonometri och kan lösa mer komplicerade problemställningar.
  Kan beräkna areor och volymer för figurer och kroppar analytiskt och med hjälp av vektorer.
  Kan tillämpa vektorer på mer komplicerade problemställningar och behärskar användning av vektorer i beräkningsprogram.
  Kan tillämpa matematiska modeller på tekniska problemställningar. (not translated)

•   Hydromechanics and Thermal Physics TKV18HV01-3015 29.08.2022-11.12.2022  4 credits  (MAP21D-V) +-
  Competence objectives of the study unit

  To teach basic concepts and important relationships for understanding heat and the thermal properties of matter. The course also includes laboratory work, analyzing measurements and writing reports on the results.

  Prerequisites

  Mechanics (recommended)

  Content of the study unit

  Pressure, Archimedes' principle and buoyancy
  Fluid flow, linear and quadratic drag
  Heat and temperature
  Heat capacity and calorimetry
  Phase transitions
  Humidity
  Heating value and combustion
  Heating processes with continuous flows
  The ideal gas law
  Heat transfer mechanisms
  Heat conduction through layers
  Analysing and reporting measurements from laboratory work (measurement uncertainty, regression analysis)

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  - Can carry out measurements according to instructions and correctly record measurements.
  - Can assess the uncertainty of a measured value.
  - Can calculate with propagation of errors.
  - Can write a report containing all the essential structural elements and present results in an understandable way.
  - Can calculate hydrostatic pressure.
  - Can use the continuity condition.
  - Can determine the nature of the flow (laminar/turbulent) in a pipe.
  - Understands central quantities and concepts in heat theory.
  - Can make simple calculations with heat expansion, gas laws, heat capacity and heat transport.

  Assessment criteria – good (3-4)

  - Can plan measurements to obtain representative values.
  - Can systematically note measurements.
  - Can calculate uncertainties with regression analysis.
  - Can assess the relative impact of measurement uncertainties on the uncertainty of the end result.
  - Can write a report with correct formalism regarding units, notation, rounding, table structure and graphical presentation.
  - Can calculate forces on bodies in a fluid, both at rest and in relative motion.
  - Can do calorimetric calculations.
  - Can apply the ideal gas law to closed systems.
  - Can calculate heat transfer through flat walls.

  Assessment criteria – excellent (5)

  - Can perform measurements efficiently and systematically.
  - Can plan the measurements and make corrections to determine the final results with good accuracy.
  - Can perform an uncertainty analysis by linearizing physical relationships.
  - Can write a report that is balanced, economical and virtually free from formal errors.
  - Can present the data and analysis process in a systematic and easy to read manner.
  - Can calculate the motion for a body falling though a fluid.
  - Can perform calorimetric calculations with phase transitions.
  - Can apply the ideal gas law to open systems.

  ---

  Person(s) in charge

  Kaj Rintanen

  Mode of delivery

  Face-to-face

  Learning material

  Kompendium och annat material finns i moodle (not translated)

  Learning methods

  Föreläsningar och räkneövningar
  Laborationer med rapportering (not translated)

  Objects, timing and methods of assessment

  Vitsordet baserar sig på laborationsrapporter, inlämningsuppgifter och tentamen. (not translated)

  Teaching language

  Swedish

  Timing

  29.08.2022 - 11.12.2022

  Enrollment date range

  15.06.2022 - 11.09.2022

  • 4 credits

  Group(s)

  • MAP21D-V

  Small group(s)

  • Group A (Size: 20. Open university: 0.)
  • Group B (Size: 20. Open university: 0.)
  • Group C (Size: 20. Open university: 0.)

  Teachers and responsibilities

  Mats Borg

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Exam dates and retake possibilities

  Tentamen på teoridelen. Två omtagningsmöjligheter vid specificerade omtagningstillfällen. Tidpunkterna för dessa anges i kursschemat i moodle.
  Tidtabell för inlämning av laborationsrapporter anges i kursschemat i moodle. (not translated)

  Student's schedule and workload

  Total tidsåtgång 107 h, varav
  * Teorilektioner och räkneövningar 34 h
  * Laboratoriearbete 12 h
  * Tentamen 2h
  * Självstudier, arbete med uppgifter och rapportering 59 h (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1. (not translated)

  Assessment criteria – satisfactory (1-2)

  - Kan genomföra mätningar enligt anvisningar och korrekt notera uppmätta resultat.
  - Kan bedöma osäkerheten hos ett uppmätt värde.
  - Kan beräkna osäkerhetsprogression.
  - Kan skriva en rapport som innehåller alla väsentliga strukturella element och presentera resultat på ett förståeligt sätt.
  - Kan räkna hydrostatiskt tryck.
  - Kan använda kontinuitetsvillkoret.
  - Kan för rörströmning avgöra strömningens karaktär.
  - Förstår innebörden av centrala storheter och begrepp i värmeläran.
  - Kan göra enkla beräkningar med värmeutvidgning, gaslagar, värmekapacitet och värmetransport. (not translated)

  Assessment criteria – good (3-4)

  - Kan planera mätningar för att erhålla representativa och väl spridda värden.
  - Kan systematiskt notera uppmätta resultat.
  - Kan beräkna osäkerhet genom regressionsanalys.
  - Kan bedöma den relativa inverkan av mätosäkerheten hos olika uppmätta variabler på slutresultatets osäkerhet.
  - Kan skriva en rapport med huvudsakligen korrekt formalism gällande enheter, beteckningar, avrundning, tabellstruktur och grafisk presentation
  - Kan beräkna krafter på kroppar i en fluid både i vila och i relativ rörelse.
  - Kan göra kalorimetriska beräkningar.
  - Kan tillämpa idealgaslagen på slutna system.
  - Kan räkna värmegenomgång genom plan vägg. (not translated)

  Assessment criteria – excellent (5)

  - Kan effektivt och systematiskt utföra mätningar.
  - Kan planera dessa och vidta korrigerande åtgärder så att slutresultat med god noggrannhet erhålls.
  - Kan göra en osäkerhetsanalys genom att linearisera fysikaliska samband.
  - Kan skriva en rapport som är balanserad, ekonomisk och så gott som fri från formella fel.
  - Kan presentera data och analysprocessen på ett systematiskt och lättläst sätt.
  - Kan räkna fallrörelse för kropp i fluid.
  - Kan göra kalorimetriska beräkningar med fasövergångar.
  - Kan tillämpa idealgaslagen på öppna system. (not translated)

•   Hydromechanics and Thermal Physics TKV18HV01-3016 29.08.2022-13.11.2022  4 credits  (PRE21D-V) +-
  Competence objectives of the study unit

  To teach basic concepts and important relationships for understanding heat and the thermal properties of matter. The course also includes laboratory work, analyzing measurements and writing reports on the results.

  Prerequisites

  Mechanics (recommended)

  Content of the study unit

  Pressure, Archimedes' principle and buoyancy
  Fluid flow, linear and quadratic drag
  Heat and temperature
  Heat capacity and calorimetry
  Phase transitions
  Humidity
  Heating value and combustion
  Heating processes with continuous flows
  The ideal gas law
  Heat transfer mechanisms
  Heat conduction through layers
  Analysing and reporting measurements from laboratory work (measurement uncertainty, regression analysis)

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  - Can carry out measurements according to instructions and correctly record measurements.
  - Can assess the uncertainty of a measured value.
  - Can calculate with propagation of errors.
  - Can write a report containing all the essential structural elements and present results in an understandable way.
  - Can calculate hydrostatic pressure.
  - Can use the continuity condition.
  - Can determine the nature of the flow (laminar/turbulent) in a pipe.
  - Understands central quantities and concepts in heat theory.
  - Can make simple calculations with heat expansion, gas laws, heat capacity and heat transport.

  Assessment criteria – good (3-4)

  - Can plan measurements to obtain representative values.
  - Can systematically note measurements.
  - Can calculate uncertainties with regression analysis.
  - Can assess the relative impact of measurement uncertainties on the uncertainty of the end result.
  - Can write a report with correct formalism regarding units, notation, rounding, table structure and graphical presentation.
  - Can calculate forces on bodies in a fluid, both at rest and in relative motion.
  - Can do calorimetric calculations.
  - Can apply the ideal gas law to closed systems.
  - Can calculate heat transfer through flat walls.

  Assessment criteria – excellent (5)

  - Can perform measurements efficiently and systematically.
  - Can plan the measurements and make corrections to determine the final results with good accuracy.
  - Can perform an uncertainty analysis by linearizing physical relationships.
  - Can write a report that is balanced, economical and virtually free from formal errors.
  - Can present the data and analysis process in a systematic and easy to read manner.
  - Can calculate the motion for a body falling though a fluid.
  - Can perform calorimetric calculations with phase transitions.
  - Can apply the ideal gas law to open systems.

  ---

  Person(s) in charge

  Roger Nylund

  Mode of delivery

  Face-to-face

  Learning material

  Kompendium och annat material delas på kurssidan (not translated)

  Learning methods

  Föreläsningar och övningar
  Laborationer med rapportering
  Inlämningsuppgifter (not translated)

  Objects, timing and methods of assessment

  Vitsordet baserar sig på labbrapporter, inlämningsuppgifter och tentamen. (not translated)

  Teaching language

  Swedish

  Timing

  29.08.2022 - 13.11.2022

  Enrollment date range

  15.06.2022 - 11.09.2022

  • 4 credits

  Group(s)

  • PRE21D-V

  Small group(s)

  • Group 1 (Size: 30. Open university: 0.)
  • Group 2 (Size: 30. Open university: 0.)

  Teachers and responsibilities

  Anders Skjäl

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Exam dates and retake possibilities

  Tentamen mot slutet av kursen
  Två omtagningsmöjligheter på specificerade allmänna omtagningstillfällen (not translated)

  Student's schedule and workload

  108 h
  Närundervisning 38 h
  Laboratoriearbete 12 h
  Rapportering 16 h
  Inlämningsuppgifter 22 h
  Självstudier 20 h (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1. (not translated)

  Assessment criteria – satisfactory (1-2)

  - Kan genomföra mätningar enligt anvisningar och korrekt notera uppmätta resultat.
  - Kan bedöma osäkerheten hos ett uppmätt värde.
  - Kan beräkna osäkerhetsprogression.
  - Kan skriva en rapport som innehåller alla väsentliga strukturella element och presentera resultat på ett förståeligt sätt.
  - Kan räkna hydrostatiskt tryck.
  - Kan använda kontinuitetsvillkoret.
  - Kan för rörströmning avgöra strömningens karaktär.
  - Förstår innebörden av centrala storheter och begrepp i värmeläran.
  - Kan göra enkla beräkningar med värmeutvidgning, gaslagar, värmekapacitet och värmetransport. (not translated)

  Assessment criteria – good (3-4)

  - Kan planera mätningar för att erhålla representativa och väl spridda värden.
  - Kan systematiskt notera uppmätta resultat.
  - Kan beräkna osäkerhet genom regressionsanalys.
  - Kan bedöma den relativa inverkan av mätosäkerheten hos olika uppmätta variabler på slutresultatets osäkerhet.
  - Kan skriva en rapport med huvudsakligen korrekt formalism gällande enheter, beteckningar, avrundning, tabellstruktur och grafisk presentation
  - Kan beräkna krafter på kroppar i en fluid både i vila och i relativ rörelse.
  - Kan göra kalorimetriska beräkningar.
  - Kan tillämpa idealgaslagen på slutna system.
  - Kan räkna värmegenomgång genom plan vägg. (not translated)

  Assessment criteria – excellent (5)

  - Kan effektivt och systematiskt utföra mätningar.
  - Kan planera dessa och vidta korrigerande åtgärder så att slutresultat med god noggrannhet erhålls.
  - Kan göra en osäkerhetsanalys genom att linearisera fysikaliska samband.
  - Kan skriva en rapport som är balanserad, ekonomisk och så gott som fri från formella fel.
  - Kan presentera data och analysprocessen på ett systematiskt och lättläst sätt.
  - Kan räkna fallrörelse för kropp i fluid.
  - Kan göra kalorimetriska beräkningar med fasövergångar.
  - Kan tillämpa idealgaslagen på öppna system. (not translated)

•   Hydromechanics and Thermal Physics TKV18HV01-3017 05.09.2022-18.12.2022  4 credits  (BYL21D-V, ...) +-
  Competence objectives of the study unit

  To teach basic concepts and important relationships for understanding heat and the thermal properties of matter. The course also includes laboratory work, analyzing measurements and writing reports on the results.

  Prerequisites

  Mechanics (recommended)

  Content of the study unit

  Pressure, Archimedes' principle and buoyancy
  Fluid flow, linear and quadratic drag
  Heat and temperature
  Heat capacity and calorimetry
  Phase transitions
  Humidity
  Heating value and combustion
  Heating processes with continuous flows
  The ideal gas law
  Heat transfer mechanisms
  Heat conduction through layers
  Analysing and reporting measurements from laboratory work (measurement uncertainty, regression analysis)

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  - Can carry out measurements according to instructions and correctly record measurements.
  - Can assess the uncertainty of a measured value.
  - Can calculate with propagation of errors.
  - Can write a report containing all the essential structural elements and present results in an understandable way.
  - Can calculate hydrostatic pressure.
  - Can use the continuity condition.
  - Can determine the nature of the flow (laminar/turbulent) in a pipe.
  - Understands central quantities and concepts in heat theory.
  - Can make simple calculations with heat expansion, gas laws, heat capacity and heat transport.

  Assessment criteria – good (3-4)

  - Can plan measurements to obtain representative values.
  - Can systematically note measurements.
  - Can calculate uncertainties with regression analysis.
  - Can assess the relative impact of measurement uncertainties on the uncertainty of the end result.
  - Can write a report with correct formalism regarding units, notation, rounding, table structure and graphical presentation.
  - Can calculate forces on bodies in a fluid, both at rest and in relative motion.
  - Can do calorimetric calculations.
  - Can apply the ideal gas law to closed systems.
  - Can calculate heat transfer through flat walls.

  Assessment criteria – excellent (5)

  - Can perform measurements efficiently and systematically.
  - Can plan the measurements and make corrections to determine the final results with good accuracy.
  - Can perform an uncertainty analysis by linearizing physical relationships.
  - Can write a report that is balanced, economical and virtually free from formal errors.
  - Can present the data and analysis process in a systematic and easy to read manner.
  - Can calculate the motion for a body falling though a fluid.
  - Can perform calorimetric calculations with phase transitions.
  - Can apply the ideal gas law to open systems.

  ---

  Person(s) in charge

  Leif Östman

  Mode of delivery

  Face-to-face

  Learning material

  Kompendium och annat material delas på kurssidan (not translated)

  Learning methods

  Föreläsningar och övningar
  Laborationer med rapportering
  Inlämningsuppgifter (not translated)

  Objects, timing and methods of assessment

  Vitsordet baserar sig på labbrapporter, inlämningsuppgifter och tentamen. (not translated)

  Teaching language

  Swedish

  Timing

  05.09.2022 - 18.12.2022

  Enrollment date range

  15.06.2022 - 11.09.2022

  • 4 credits

  Group(s)

  • BYL21D-V
  • BYS21D-V

  Small group(s)

  • Group A (Size: 30. Open university: 0.)
  • Group B (Size: 30. Open university: 0.)

  Teachers and responsibilities

  Anders Skjäl

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Exam dates and retake possibilities

  Tentamen mot slutet av kursen
  Två omtagningsmöjligheter på specificerade allmänna omtagningstillfällen (not translated)

  Student's schedule and workload

  108 h
  Närundervisning 38 h
  Laboratoriearbete 12 h
  Rapportering 16 h
  Inlämningsuppgifter 22 h
  Självstudier 20 h (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1. (not translated)

  Assessment criteria – satisfactory (1-2)

  - Kan genomföra mätningar enligt anvisningar och korrekt notera uppmätta resultat.
  - Kan bedöma osäkerheten hos ett uppmätt värde.
  - Kan beräkna osäkerhetsprogression.
  - Kan skriva en rapport som innehåller alla väsentliga strukturella element och presentera resultat på ett förståeligt sätt.
  - Kan räkna hydrostatiskt tryck.
  - Kan använda kontinuitetsvillkoret.
  - Kan för rörströmning avgöra strömningens karaktär.
  - Förstår innebörden av centrala storheter och begrepp i värmeläran.
  - Kan göra enkla beräkningar med värmeutvidgning, gaslagar, värmekapacitet och värmetransport. (not translated)

  Assessment criteria – good (3-4)

  - Kan planera mätningar för att erhålla representativa och väl spridda värden.
  - Kan systematiskt notera uppmätta resultat.
  - Kan beräkna osäkerhet genom regressionsanalys.
  - Kan bedöma den relativa inverkan av mätosäkerheten hos olika uppmätta variabler på slutresultatets osäkerhet.
  - Kan skriva en rapport med huvudsakligen korrekt formalism gällande enheter, beteckningar, avrundning, tabellstruktur och grafisk presentation
  - Kan beräkna krafter på kroppar i en fluid både i vila och i relativ rörelse.
  - Kan göra kalorimetriska beräkningar.
  - Kan tillämpa idealgaslagen på slutna system.
  - Kan räkna värmegenomgång genom plan vägg. (not translated)

  Assessment criteria – excellent (5)

  - Kan effektivt och systematiskt utföra mätningar.
  - Kan planera dessa och vidta korrigerande åtgärder så att slutresultat med god noggrannhet erhålls.
  - Kan göra en osäkerhetsanalys genom att linearisera fysikaliska samband.
  - Kan skriva en rapport som är balanserad, ekonomisk och så gott som fri från formella fel.
  - Kan presentera data och analysprocessen på ett systematiskt och lättläst sätt.
  - Kan räkna fallrörelse för kropp i fluid.
  - Kan göra kalorimetriska beräkningar med fasövergångar.
  - Kan tillämpa idealgaslagen på öppna system. (not translated)

•   Hydromechanics and Thermal Physics TKV18HV01-3018 29.08.2022-27.11.2022  4 credits  (ELA21D-V) +-
  Competence objectives of the study unit

  To teach basic concepts and important relationships for understanding heat and the thermal properties of matter. The course also includes laboratory work, analyzing measurements and writing reports on the results.

  Prerequisites

  Mechanics (recommended)

  Content of the study unit

  Pressure, Archimedes' principle and buoyancy
  Fluid flow, linear and quadratic drag
  Heat and temperature
  Heat capacity and calorimetry
  Phase transitions
  Humidity
  Heating value and combustion
  Heating processes with continuous flows
  The ideal gas law
  Heat transfer mechanisms
  Heat conduction through layers
  Analysing and reporting measurements from laboratory work (measurement uncertainty, regression analysis)

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  - Can carry out measurements according to instructions and correctly record measurements.
  - Can assess the uncertainty of a measured value.
  - Can calculate with propagation of errors.
  - Can write a report containing all the essential structural elements and present results in an understandable way.
  - Can calculate hydrostatic pressure.
  - Can use the continuity condition.
  - Can determine the nature of the flow (laminar/turbulent) in a pipe.
  - Understands central quantities and concepts in heat theory.
  - Can make simple calculations with heat expansion, gas laws, heat capacity and heat transport.

  Assessment criteria – good (3-4)

  - Can plan measurements to obtain representative values.
  - Can systematically note measurements.
  - Can calculate uncertainties with regression analysis.
  - Can assess the relative impact of measurement uncertainties on the uncertainty of the end result.
  - Can write a report with correct formalism regarding units, notation, rounding, table structure and graphical presentation.
  - Can calculate forces on bodies in a fluid, both at rest and in relative motion.
  - Can do calorimetric calculations.
  - Can apply the ideal gas law to closed systems.
  - Can calculate heat transfer through flat walls.

  Assessment criteria – excellent (5)

  - Can perform measurements efficiently and systematically.
  - Can plan the measurements and make corrections to determine the final results with good accuracy.
  - Can perform an uncertainty analysis by linearizing physical relationships.
  - Can write a report that is balanced, economical and virtually free from formal errors.
  - Can present the data and analysis process in a systematic and easy to read manner.
  - Can calculate the motion for a body falling though a fluid.
  - Can perform calorimetric calculations with phase transitions.
  - Can apply the ideal gas law to open systems.

  ---

  Person(s) in charge

  Ronnie Sundsten

  Mode of delivery

  Face-to-face

  Learning material

  Kompendium och annat material delas på kurssidan (not translated)

  Learning methods

  Föreläsningar och övningar
  Laborationer med rapportering
  Inlämningsuppgifter (not translated)

  Objects, timing and methods of assessment

  Vitsordet baserar sig på labbrapporter, inlämningsuppgifter och tentamen. (not translated)

  Teaching language

  Swedish

  Timing

  29.08.2022 - 27.11.2022

  Enrollment date range

  15.06.2022 - 11.09.2022

  • 4 credits

  Group(s)

  • ELA21D-V

  Small group(s)

  • ELA21-V-S1 (Size: 20. Open university: 0.)
  • ELA21-V-Y1 (Size: 20. Open university: 0.)
  • ELA21-V-S2 (Size: 20. Open university: 0.)
  • ELA21-V-Y2 (Size: 20. Open university: 0.)

  Teachers and responsibilities

  Anders Skjäl

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Exam dates and retake possibilities

  Tentamen mot slutet av kursen
  Två omtagningsmöjligheter på specificerade allmänna omtagningstillfällen (not translated)

  Student's schedule and workload

  108 h
  Närundervisning 38 h
  Laboratoriearbete 12 h
  Rapportering 16 h
  Inlämningsuppgifter 22 h
  Självstudier 20 h (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1. (not translated)

  Assessment criteria – satisfactory (1-2)

  - Kan genomföra mätningar enligt anvisningar och korrekt notera uppmätta resultat.
  - Kan bedöma osäkerheten hos ett uppmätt värde.
  - Kan beräkna osäkerhetsprogression.
  - Kan skriva en rapport som innehåller alla väsentliga strukturella element och presentera resultat på ett förståeligt sätt.
  - Kan räkna hydrostatiskt tryck.
  - Kan använda kontinuitetsvillkoret.
  - Kan för rörströmning avgöra strömningens karaktär.
  - Förstår innebörden av centrala storheter och begrepp i värmeläran.
  - Kan göra enkla beräkningar med värmeutvidgning, gaslagar, värmekapacitet och värmetransport. (not translated)

  Assessment criteria – good (3-4)

  - Kan planera mätningar för att erhålla representativa och väl spridda värden.
  - Kan systematiskt notera uppmätta resultat.
  - Kan beräkna osäkerhet genom regressionsanalys.
  - Kan bedöma den relativa inverkan av mätosäkerheten hos olika uppmätta variabler på slutresultatets osäkerhet.
  - Kan skriva en rapport med huvudsakligen korrekt formalism gällande enheter, beteckningar, avrundning, tabellstruktur och grafisk presentation
  - Kan beräkna krafter på kroppar i en fluid både i vila och i relativ rörelse.
  - Kan göra kalorimetriska beräkningar.
  - Kan tillämpa idealgaslagen på slutna system.
  - Kan räkna värmegenomgång genom plan vägg. (not translated)

  Assessment criteria – excellent (5)

  - Kan effektivt och systematiskt utföra mätningar.
  - Kan planera dessa och vidta korrigerande åtgärder så att slutresultat med god noggrannhet erhålls.
  - Kan göra en osäkerhetsanalys genom att linearisera fysikaliska samband.
  - Kan skriva en rapport som är balanserad, ekonomisk och så gott som fri från formella fel.
  - Kan presentera data och analysprocessen på ett systematiskt och lättläst sätt.
  - Kan räkna fallrörelse för kropp i fluid.
  - Kan göra kalorimetriska beräkningar med fasövergångar.
  - Kan tillämpa idealgaslagen på öppna system. (not translated)

•   Industrial Training MAP18PR01-3002 01.08.2022-31.07.2023  30 credits  (MAP19D-V) +-
  Competence objectives of the study unit

  The goal of the company-based practice is for the student to try and learn practically the tasks of an engineer (YH). Through the combination of theoretical studies presented within the education and practical supervised tasks in the workplace, the goal is that the student should be well prepared to independently take on engineering tasks in the working life after completing the education.

  Prerequisites

  All car technical courses passed and at least 150 credits of the curriculum studies completed.

  Content of the study unit

  The content of the supervised practice should be suitable for a student with the profile "car" and sufficiently versatile. Examples of typical internship tasks may be: Customer reception at a garage, spare parts sales, car inspection, sales, transport management, etc.
  Final content is determined individually in consultation between the trainer and the internship.
  After completing the internship, the student submits an internship report with evaluation of the learning both orally and in written form.

  ---

  Person(s) in charge

  Kaj Rintanen

  Mode of delivery

  Face-to-face

  Teaching language

  Timing

  01.08.2022 - 31.07.2023

  Enrollment date range

  02.07.2022 - 31.07.2022

  • 30 credits

  Group(s)

  • MAP19D-V

  Teachers and responsibilities

  Kaj Rintanen

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Mechanical and Production Engineering

  Assessment scale

  H-5

•   Materials MAP22MT03-3002 01.01.2023-23.04.2023  5 credits  (MAP22D-V) +-
  Competence objectives of the study unit

  After passing the course the student is expected to:
  
  - have knowledge and understanding of the basic factors that influence the properties of a material.
  - be able to describe methods used to influence the properties of the materials.
  - be able to perform basic material testing
  - know the most common materials used in the engineering industry
  - be able to compare and critically evaluate the technical characteristics and economic connection that the choice of material entails in product development.

  Prerequisites

  None

  Content of the study unit

  - Material testing methods
  - The structure of the materials
  - The steel manufacturing process
  - Steel heat treatment methods
  - The properties and uses of metals
  - Polymeric materials chemistry and structure
  - The groupings of plastics
  - The properties and use of plastics

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Knows and can identify the properties of the materials.
  Knows about the material standards.
  Knows and understands the material testing methods.
  Knows the connection between materials - manufacturing and design.
  Can name the most common plastic materials and be able to give examples of applications.
  Understands the division of plastic materials.
  Can provide examples of the most common plastics processing methods.
  Can give examples of the principles of material selection.

  Assessment criteria – good (3-4)

  Understands the properties of different metals and how to influence them.
  Can apply material standards in real processes.
  Knows about the steel making process.
  Can choose material based on design requirements.
  Understands and can use the plastic industry terminology.
  Can broadly describe the structure of different plastic materials.
  Can describe different processing methods for plastics.
  Can broadly assess the environmental impact of various plastic materials.

  Assessment criteria – excellent (5)

  Understands the structure of metals and their state diagrams.
  Can choose suitable material and material treatment for different purposes.
  Understands the technical and economic connection that arises in material selection.
  Can describe the most important properties of different plastic materials.
  Can explain how the structure of the material affects its properties.
  Can choose suitable machining method.
  Can describe the most important criteria regarding material selection.

  ---

  Mode of delivery

  Face-to-face

  Learning material

  Studiematerial i Moodle
  
  Kurslitteratur:
  Materiallära, Leijon W, Liber
  Värt att veta om plast, Bruder U, Bruder Consulting (not translated)

  Learning methods

  Föreläsningar, laboratorieövningar, projektuppgift (not translated)

  Objects, timing and methods of assessment

  2 Deltenter med vardera viktfaktorn 25 %
  Bedömning av laboratorierapporter 25 %
  Projektuppgift 25 % (not translated)

  Teaching language

  Swedish

  Timing

  01.01.2023 - 23.04.2023

  Enrollment date range

  01.12.2022 - 31.12.2022

  • 5 credits

  Group(s)

  • MAP22D-V

  Teachers and responsibilities

  Kenneth Ehrström

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Mechanical and Production Engineering

  Assessment scale

  H-5

  Exam dates and retake possibilities

  Deltent 1 (metaller) vecka 7
  Omtent vecka 8
  Allmän omtent 10.3.2023
  
  Deltent 2 (plaster) vecka 17
  Omtent vecka 17
  Allmän omtent 5.5.2022 (not translated)

  Student's schedule and workload

  Förväntad arbetsinsats: 135 h varav 80 h schemalagda (not translated)

  Content scheduling

  Metaller vecka 1-7
  Laboratoriövningar vecka 8-12
  Plaster vecka 13-17 (not translated)

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Känner till och kan identifiera materialens egenskaper.
  Känner till material- standarderna.
  Känner till och förstår materialprovningsmetoderna.
  Känner till kopplingen mellan material – tillverkning och konstruktion.
  Kan nämna de vanligaste plastmaterialen samt kunna ge exempel på användnings-område.
  Förstår plastmaterialens indelning.
  Kan ge exempel på de vanligaste bearbetningsmetoderna för plaster.
  Kan ge exempel på principerna för materialval. (not translated)

  Assessment criteria – good (3-4)

  Förstår olika metallers egenskaper och hur man kan påverka dessa.
  Kan tillämpa materialstandarderna i verkliga processer.
  Känner till stålets framställningsprocess.
  Kan välja material utgående från konstruktionsmässiga krav.
  Förstår och kan använda plastbranschens terminologi.
  Kan i stora drag beskriva strukturen hos olika plastmaterial.
  Kan beskriva olika bearbetningsmetoder för plaster.
  Kan i stora drag bedöma miljöbelastningen hos olika plastmaterial. (not translated)

  Assessment criteria – excellent (5)

  Förstår metallers strukturella uppbyggnad och deras tillståndsdiagram.
  Kan välja lämpligt material och materialbehandling för olika ändamål.
  Förstår den tekniska och ekonomiska kopplingen som uppstår vid materialvalet.
  Kan beskriva de viktigaste egenskaperna för olika plastmaterial.
  Kan förklara hur materialets struktur påverkar dess egenskaper.
  Kan välja passande bearbetningsmetod.
  Kan beskriva de viktigaste kriterierna angående materialval. (not translated)

•   Mechanics TKV22ME01-3002 01.01.2023-23.04.2023  5 credits  (ELA22D-V, ...) +-
  Competence objectives of the study unit

  After passing the course the student can apply basic physics concepts such as power, torque, energy and momentum to bodies in motion and in equilibrium.

  Prerequisites

  None

  Content of the study unit

  Unit conversions, formulas
  Graphical descriptions of movement
  Velocity, acceleration
  Vectors in physics
  Curvilinear motion and normal acceleration
  Forces and Newton's laws
  Energy, work, the work-energy principle
  Power and efficiency
  Impulse and momentum
  Torques
  Center of mass
  Mechanical equilibrium
  Truss analysis
  
  Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Students fulfill the objectives of the course, and in the relevant realization compulsory parts, at a satisfactory level.

  Assessment criteria – good (3-4)

  Students fulfill the objectives of the course, and in the relevant realization compulsory parts, at a good level.

  Assessment criteria – excellent (5)

  Students fulfill the objectives of the course, and in the relevant realization compulsory parts, at an excellent level.

  ---

  Mode of delivery

  Face-to-face

  Learning material

  Dokument med teoriavsnitt och övningsuppgifter
  Kursbok (not translated)

  Learning methods

  Föreläsningar
  Räkneövningar
  Inlämningsuppgifter (not translated)

  Objects, timing and methods of assessment

  Inlämningsuppgifter
  Delförhör/Tentamen (not translated)

  Teaching language

  Swedish

  Timing

  01.01.2023 - 23.04.2023

  Enrollment date range

  01.12.2022 - 31.12.2022

  • 5 credits

  Group(s)

  • ELA22D-V
  • ÖH22ELA-LED-V

  Small group(s)

  • ELA22-S (Size: 30. Open university: 0.)
  • ELA22-Y (Size: 30. Open university: 0.)

  Teachers and responsibilities

  Anders Skjäl, Sofia Frilund

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Exam dates and retake possibilities

  Tre delförhör under kursen
  Två omtagningsmöjligheter på specificerade allmänna omtagningstillfällen (not translated)

  Student's schedule and workload

  135 h
  Närundervisning 64 h
  Inlämningsuppgifter 46 h
  Självstudier 25 h (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1. (not translated)

  Assessment criteria – satisfactory (1-2)

  - Kan göra enhetsomvandlingar och avrundningar.
  - Kan beräkna sökt storhet ur formler.
  - Kan bestämma komponenter och addera vektorer.
  - Förstår innebörden av centrala storheter och begrepp i kinematiken.
  - Kan göra standardberäkningar med rörelse i en dimension.
  - Kan beräkna centripetalacceleration
  - Känner till olika krafttyper och kan rita frikroppsdiagram.
  - Kan tillämpa Newtons lagar i endimensionella situationer.
  - Känner till de olika energiformerna.
  - Kan räkna med mekanisk energi, arbete, effekt och verkningsgrad.
  - Kan beräkna impuls utgående från (t,F)‐diagram.
  - Kan göra beräkningar med impuls och rörelsemängd.
  - Kan räkna raka, fullständigt oelastiska stötar.
  - Kan räkna tyngdpunkter för enkla geometrier.
  - Kan beräkna moment från en eller flera krafter. (not translated)

  Assessment criteria – good (3-4)

  - Kan beräkna sökt storhet genom att kombinera flera olika formler.
  - Kan tillämpa vektoralgebra på tvådimensionella fysikaliska problem.
  - Kan räkna endimensionell rörelse med icke‐likformigt varierande hastighet.
  - Kan göra enklare beräkningar med rörelse i två dimensioner så som likformig banrörelse.
  - Kan tillämpa Newtons lagar i enklare tvådimensionella situationer så som lutande plan.
  - Kan tillämpa energiprincipen när den mekaniska energin bevaras.
  - Kan räkna sneda, fullständigt oelastiska stötar.
  - Kan räkna tyngdpunkter för kombinationer av enkla geometrier.
  - Kan frilägga en kropp och tillämpa jämviktsvillkoren i tvådimensionella situationer. (not translated)

  Assessment criteria – excellent (5)

  - Kan härleda nya formler genom att symboliskt kombinera formler.
  - Kan tillämpa vektoralgebra på tredimensionella fysikaliska problem.
  - Kan göra beräkningar med krökt och tangentiellt accelererad rörelse i två dimensioner.
  - Kan tillämpa Newtons lagar i mer krävande två‐ och tredimensionella situationer, så som flerkroppsproblem och doserade kurvor.
  - Kan tillämpa energiprincipen när icke‐mekaniska energiformer och yttre arbeten är involverade.
  - Kan räkna raka stötar med studs.
  - Kan göra beräkningar där både energiprincipen och lagen om rörelsemängdens bevarande ingår.
  - Kan tillämpa jämviktsvillkoren i tvådimensionella problem med flera kroppar.
  - Kan räkna plana fackverk med knutpunktsmetoden och snittmetoden. (not translated)

•   Mechanics TKV22ME01-3003 01.01.2023-22.04.2023  5 credits  (PRE22D-V) +-
  Competence objectives of the study unit

  After passing the course the student can apply basic physics concepts such as power, torque, energy and momentum to bodies in motion and in equilibrium.

  Prerequisites

  None

  Content of the study unit

  Unit conversions, formulas
  Graphical descriptions of movement
  Velocity, acceleration
  Vectors in physics
  Curvilinear motion and normal acceleration
  Forces and Newton's laws
  Energy, work, the work-energy principle
  Power and efficiency
  Impulse and momentum
  Torques
  Center of mass
  Mechanical equilibrium
  Truss analysis
  
  Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Students fulfill the objectives of the course, and in the relevant realization compulsory parts, at a satisfactory level.

  Assessment criteria – good (3-4)

  Students fulfill the objectives of the course, and in the relevant realization compulsory parts, at a good level.

  Assessment criteria – excellent (5)

  Students fulfill the objectives of the course, and in the relevant realization compulsory parts, at an excellent level.

  ---

  Mode of delivery

  Face-to-face

  Learning material

  Dokument med teoriavsnitt och övningsuppgifter
  Kursbok (not translated)

  Learning methods

  Föreläsningar
  Räkneövningar
  Inlämningsuppgifter (not translated)

  Objects, timing and methods of assessment

  Inlämningsuppgifter
  Delförhör/Tentamen (not translated)

  Teaching language

  Swedish

  Timing

  01.01.2023 - 22.04.2023

  Enrollment date range

  01.12.2022 - 31.12.2022

  • 5 credits

  Group(s)

  • PRE22D-V

  Teachers and responsibilities

  Anders Skjäl

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Exam dates and retake possibilities

  Tre delförhör under kursen
  Två omtagningsmöjligheter på specificerade allmänna omtagningstillfällen (not translated)

  Student's schedule and workload

  135 h
  Närundervisning 64 h
  Inlämningsuppgifter 46 h
  Självstudier 25 h (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1. (not translated)

  Assessment criteria – satisfactory (1-2)

  - Kan göra enhetsomvandlingar och avrundningar.
  - Kan beräkna sökt storhet ur formler.
  - Kan bestämma komponenter och addera vektorer.
  - Förstår innebörden av centrala storheter och begrepp i kinematiken.
  - Kan göra standardberäkningar med rörelse i en dimension.
  - Kan beräkna centripetalacceleration
  - Känner till olika krafttyper och kan rita frikroppsdiagram.
  - Kan tillämpa Newtons lagar i endimensionella situationer.
  - Känner till de olika energiformerna.
  - Kan räkna med mekanisk energi, arbete, effekt och verkningsgrad.
  - Kan beräkna impuls utgående från (t,F)‐diagram.
  - Kan göra beräkningar med impuls och rörelsemängd.
  - Kan räkna raka, fullständigt oelastiska stötar.
  - Kan räkna tyngdpunkter för enkla geometrier.
  - Kan beräkna moment från en eller flera krafter. (not translated)

  Assessment criteria – good (3-4)

  - Kan beräkna sökt storhet genom att kombinera flera olika formler.
  - Kan tillämpa vektoralgebra på tvådimensionella fysikaliska problem.
  - Kan räkna endimensionell rörelse med icke‐likformigt varierande hastighet.
  - Kan göra enklare beräkningar med rörelse i två dimensioner så som likformig banrörelse.
  - Kan tillämpa Newtons lagar i enklare tvådimensionella situationer så som lutande plan.
  - Kan tillämpa energiprincipen när den mekaniska energin bevaras.
  - Kan räkna sneda, fullständigt oelastiska stötar.
  - Kan räkna tyngdpunkter för kombinationer av enkla geometrier.
  - Kan frilägga en kropp och tillämpa jämviktsvillkoren i tvådimensionella situationer. (not translated)

  Assessment criteria – excellent (5)

  - Kan härleda nya formler genom att symboliskt kombinera formler.
  - Kan tillämpa vektoralgebra på tredimensionella fysikaliska problem.
  - Kan göra beräkningar med krökt och tangentiellt accelererad rörelse i två dimensioner.
  - Kan tillämpa Newtons lagar i mer krävande två‐ och tredimensionella situationer, så som flerkroppsproblem och doserade kurvor.
  - Kan tillämpa energiprincipen när icke‐mekaniska energiformer och yttre arbeten är involverade.
  - Kan räkna raka stötar med studs.
  - Kan göra beräkningar där både energiprincipen och lagen om rörelsemängdens bevarande ingår.
  - Kan tillämpa jämviktsvillkoren i tvådimensionella problem med flera kroppar.
  - Kan räkna plana fackverk med knutpunktsmetoden och snittmetoden. (not translated)

•   Mechanics TKV22ME01-3001 03.10.2022-18.12.2022  5 credits  (MAP22D-V, ...) +-
  Competence objectives of the study unit

  After passing the course the student can apply basic physics concepts such as power, torque, energy and momentum to bodies in motion and in equilibrium.

  Prerequisites

  None

  Content of the study unit

  Unit conversions, formulas
  Graphical descriptions of movement
  Velocity, acceleration
  Vectors in physics
  Curvilinear motion and normal acceleration
  Forces and Newton's laws
  Energy, work, the work-energy principle
  Power and efficiency
  Impulse and momentum
  Torques
  Center of mass
  Mechanical equilibrium
  Truss analysis
  
  Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Students fulfill the objectives of the course, and in the relevant realization compulsory parts, at a satisfactory level.

  Assessment criteria – good (3-4)

  Students fulfill the objectives of the course, and in the relevant realization compulsory parts, at a good level.

  Assessment criteria – excellent (5)

  Students fulfill the objectives of the course, and in the relevant realization compulsory parts, at an excellent level.

  ---

  Person(s) in charge

  Kaj Rintanen

  Mode of delivery

  Face-to-face

  Learning material

  Dokument med teoriavsnitt och övningsuppgifter
  Kursbok (not translated)

  Learning methods

  Föreläsningar
  Räkneövningar
  Inlämningsuppgifter (not translated)

  Objects, timing and methods of assessment

  Inlämningsuppgifter
  Delförhör/Tentamen (not translated)

  Teaching language

  Swedish

  Timing

  03.10.2022 - 18.12.2022

  Enrollment date range

  15.06.2022 - 02.10.2022

  • 5 credits

  Group(s)

  • MAP22D-V
  • ÖH22MAP-LED-V
  • ÖH22ULA-LED-V

  Teachers and responsibilities

  Anders Skjäl

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Exam dates and retake possibilities

  Tre delförhör under kursen
  Två omtagningsmöjligheter på specificerade allmänna omtagningstillfällen (not translated)

  Student's schedule and workload

  135 h
  Närundervisning 64 h
  Inlämningsuppgifter 46 h
  Självstudier 25 h (not translated)

  Assessment criteria

  Uppnår inte kriterierna för vitsordet 1. (not translated)

  Assessment criteria – satisfactory (1-2)

  - Kan göra enhetsomvandlingar och avrundningar.
  - Kan beräkna sökt storhet ur formler.
  - Kan bestämma komponenter och addera vektorer.
  - Förstår innebörden av centrala storheter och begrepp i kinematiken.
  - Kan göra standardberäkningar med rörelse i en dimension.
  - Kan beräkna centripetalacceleration
  - Känner till olika krafttyper och kan rita frikroppsdiagram.
  - Kan tillämpa Newtons lagar i endimensionella situationer.
  - Känner till de olika energiformerna.
  - Kan räkna med mekanisk energi, arbete, effekt och verkningsgrad.
  - Kan beräkna impuls utgående från (t,F)‐diagram.
  - Kan göra beräkningar med impuls och rörelsemängd.
  - Kan räkna raka, fullständigt oelastiska stötar.
  - Kan räkna tyngdpunkter för enkla geometrier.
  - Kan beräkna moment från en eller flera krafter. (not translated)

  Assessment criteria – good (3-4)

  - Kan beräkna sökt storhet genom att kombinera flera olika formler.
  - Kan tillämpa vektoralgebra på tvådimensionella fysikaliska problem.
  - Kan räkna endimensionell rörelse med icke‐likformigt varierande hastighet.
  - Kan göra enklare beräkningar med rörelse i två dimensioner så som likformig banrörelse.
  - Kan tillämpa Newtons lagar i enklare tvådimensionella situationer så som lutande plan.
  - Kan tillämpa energiprincipen när den mekaniska energin bevaras.
  - Kan räkna sneda, fullständigt oelastiska stötar.
  - Kan räkna tyngdpunkter för kombinationer av enkla geometrier.
  - Kan frilägga en kropp och tillämpa jämviktsvillkoren i tvådimensionella situationer. (not translated)

  Assessment criteria – excellent (5)

  - Kan härleda nya formler genom att symboliskt kombinera formler.
  - Kan tillämpa vektoralgebra på tredimensionella fysikaliska problem.
  - Kan göra beräkningar med krökt och tangentiellt accelererad rörelse i två dimensioner.
  - Kan tillämpa Newtons lagar i mer krävande två‐ och tredimensionella situationer, så som flerkroppsproblem och doserade kurvor.
  - Kan tillämpa energiprincipen när icke‐mekaniska energiformer och yttre arbeten är involverade.
  - Kan räkna raka stötar med studs.
  - Kan göra beräkningar där både energiprincipen och lagen om rörelsemängdens bevarande ingår.
  - Kan tillämpa jämviktsvillkoren i tvådimensionella problem med flera kroppar.
  - Kan räkna plana fackverk med knutpunktsmetoden och snittmetoden. (not translated)

•   SAP - Integrated Business Processes - Teknik VAL2020-3004-3005 31.08.2022-18.12.2022  4 credits +-
  Competence objectives of the study unit

  To get a basic understanding of how common business processes are dealt within SAP / ERP systems.

  Prerequisites

  none

  Content of the study unit

  SAP intro, Procurement Process, Sales and Distribution, Controlling, Finance, Production Planning.

  ---

  Person(s) in charge

  Kaj Rintanen

  Mode of delivery

  Face-to-face

  Teaching language

  English

  Timing

  31.08.2022 - 18.12.2022

  Enrollment date range

  15.06.2022 - 30.08.2022

  • 4 credits

  Teachers and responsibilities

  Niklas Kallenberg

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Mechanical and Production Engineering

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

•   Statistics and probability MAP22MT04-3001 04.03.2023-01.05.2023  3 credits  (PRE21D-V) +-
  Competence objectives of the study unit

  - The student knows basic probability theory and can use different statistical distributions to solve problems
  - The student can statistically analyze and present a data material in a relevant way
  - The student can apply regression models to different data sets

  Prerequisites

  Functions an equations 1,
  Geometry and equations,
  Functions an equations 2
  Derivator and integrals

  Content of the study unit

  Statistics
  - descriptive statistics
  - probability theory
  - discrete and continuous distributions
  - Excel as a tool for analyzing data
  
  Curve fitting and regression
  - matrix calculus and linear algebra
  - linear regression - least squares method
  - linearization
  - mathematical software (Excel, Mathcad or other program) to build regression models

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Statistics and computational skills: Know the basics of statistics and can perform simple calculations
  Curve fitting and regression: Know the basics of regression analysis
  Mathematics software: Can use a software to solve basic problems

  Assessment criteria – good (3-4)

  Statistics and calculation skills: Is familiar with statistics and can perform relevant calculations
  Curve fitting and regression: Is familiar with the concept of regression and can perform curve fitting of technical models
  Mathematics software: Can use a software to solve applied problems

  Assessment criteria – excellent (5)

  Statistics and computational skills: Is well versed in statistics and can perform more advanced statistical calculations.
  Curve fitting and regression: Can independently perform curve fitting and regression models in advanced technical problems
  Mathematics software: Can use a software to solve advanced problems in mechanical engineering

  ---

  Person(s) in charge

  Roger Nylund

  Mode of delivery

  Face-to-face

  Learning material

  - Teorikompendium och övningsuppgifter
  - Relevanta läroböcker som rekommenderas vid kursstart (not translated)

  Learning methods

  Föreläsningar, räkneövningar och datorövningar (not translated)

  Objects, timing and methods of assessment

  Tentamen (max 30 p)
  Vitsordsskala:
  10 p 1
  14 p 2
  18 p 3
  22 p 4
  26 p 5
  
  Slutlig bedömning diskuteras och bestäms vid kursstart i samarbete med studeranden. (not translated)

  Teaching language

  Swedish

  Timing

  04.03.2023 - 01.05.2023

  Enrollment date range

  01.12.2022 - 03.03.2023

  • 3 credits

  Group(s)

  • PRE21D-V

  Teachers and responsibilities

  Tom Lillhonga

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Mechanical and Production Engineering

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Practical training and working life co-operation

  Föredrag av gäster från näringslivet. (not translated)

  Exam dates and retake possibilities

  Presenteras på kursens Moodle-sida (not translated)

  Content scheduling

  Närstudier 36 timmar.
  Studerandens arbete på egen tid: i medeltal 45 timmar (not translated)

  Assessment criteria

  Uppfyller ej kraven för vitsord 1. (not translated)

  Assessment criteria – satisfactory (1-2)

  Statistik och beräkningskompetenser: Känner till grunderna i statistik och kan utföra enkla beräkningar
  Beräkningsprogram: Kan använda ett beräkningsprogram för lösning av grundläggande problem (not translated)

  Assessment criteria – good (3-4)

  Statistik och beräkningskompetenser: Är insatt i statistik och kan utföra relevanta beräkningar
  Beräkningsprogram: Kan använda ett beräkningsprogram för lösning av tillämpade problem (not translated)

  Assessment criteria – excellent (5)

  Statistik och beräkningskompetenser: Är väl insatt i statistik och kan utföra mer avancerade statistiska kalkyler.
  Beräkningsprogram: Kan använda fler än ett beräkningsprogram för lösning av problem inom produktionsteknik (not translated)

•   Steel Construction MAP18KT08-3002 29.08.2022-11.12.2022  5 credits  (MAP19D-V) +-
  Competence objectives of the study unit

  After passing the course the student is expected to:
  
  - be able to apply design of steel structures according to current standards, taking into account static and dynamic loads.
  - be able to consider abrasion and heat stress during construction assignments.
  - be able to plan tools and fixtures used in the production of components.
  - know the factors that affect the characteristics of the final product and be able to take into account the economic aspects that affect the production costs of components.

  Prerequisites

  3D Design , Strength of Maerials 1, Strength of Materials 2

  Content of the study unit

  - Eurocodes
  - Load introduction
  - Buckling
  - Torsional moment
  - Strength at elevated temperatures
  - Fracture mechanics
  - Tool construction
  - CE marking documentation

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Knows the main principles for the design of statically loaded steel structures.
  Knows about the cracking mechanism and the principles of dimensioning for a limited lifetime.
  Knows the abrasion and creep mechanisms.
  Knows valid standards for pressure-vessel designs and can apply them.
  Knows about the use and importance of tools and fixtures in the industry and knows which aspects influence the design of tools.
  Possesses basic drawing technical skills to help document the design tasks.
  Understands the importance of documenting calculations.
  Knows about the influence and role of tool technology in other parts of mechanical engineering

  Assessment criteria – good (3-4)

  Can design various statically loaded sheet and beam structures.
  Can design simple components for a limited service life.
  Can consider abrasion and creep when choosing materials.
  Knows about the EUROCODE standards in the area. Understands the structure of the standards
  Can design pressure vessels according to current standards.
  Understands the aspects that should be taken into account when designing tools and fixtures and be able to apply different design solutions.
  Possesses the drawing technical knowledge required to model steel structures.
  Can document calculations and designs in accordance with CE requirements.
  Understands how tool technology affects entire products.

  Assessment criteria – excellent (5)

  Can independently calculate and dimension statically loaded sheet and beam structures.
  Can determine the size of dynamic loads as well as calculate and dimension components based on these.
  Is able to choose materials and design details exposed to abrasion or heat loads
  Can independently design advanced pressure vessels according to the standards
  Is able to plan and construct tools independently.
  Can make complete drawings for producing demanding steel structures
  Can independently document and report calculations and designs in accordance with CE requirements
  Can analyze the technical and financial requirements that a product places on tool technology and can implement them in the manufacturing process of tools.

  ---

  Person(s) in charge

  Kaj Rintanen

  Mode of delivery

  Face-to-face

  Learning material

  Studiematerial i Moodle
  
  Litteratur: Design handbook - structural design and manufacturing in high-strength steel. SSAB (not translated)

  Learning methods

  Föreläsningar med räkneövningar.
  Mindre inlämningsuppgifter
  Projektuppgift (not translated)

  Objects, timing and methods of assessment

  Tent samt inlämningsuppgifter. Kursvitsordet är enligt deluppgifternas viktfaktorer.
  Tent 40%
  Projektuppgift 40%
  Mindre inlämningsuppgifter 20% (not translated)

  Teaching language

  Swedish

  Timing

  29.08.2022 - 11.12.2022

  Enrollment date range

  15.06.2022 - 11.09.2022

  • 5 credits

  Group(s)

  • MAP19D-V

  Small group(s)

  • MAP19-V-K (Size: 25. Open university: 0.)

  Teachers and responsibilities

  Kenneth Ehrström

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Mechanical and Production Engineering

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Exam dates and retake possibilities

  Tent vecka 46
  Omtent vecka 48
  Sista omtent 9.12.2022 (not translated)

  Student's schedule and workload

  Förväntad arbetsinsats är 135 timmar varav 60 timmar är schemalagda (not translated)

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Känner till huvudprinciperna för dimensionering av statiskt belastade stålkonstruktioner.
  Känner till sprickbildningsmekanismen samt principerna för dimensionering mot begränsad livslängd.
  Känner till nötnings- och krypningsmekanismerna.
  Känner till giltiga standarder för tryckbärande konstruktioner och kan tillämpa dem.
  Känner till verktygens och fixturernas användning och betydelse inom industrin samt känner till vilka aspekter som påverkar konstruktionen av verktyg.
  Innehar grundläggande rittekniska kunskaper för att behjälpligt dokumentera konstruktionsuppgifterna.
  Förstår betydelsen av att dokumentera beräkningar.
  Känner till verktygsteknikens påverkan och roll inom andra delar av maskintekniken (not translated)

  Assessment criteria – good (3-4)

  Kan dimensionera olika statiskt belastade plåt och balk konstruktioner.
  Kan dimensionera enkla komponenter mot begränsad livslängd.
  Kan beakta nötning och krypning vid val av material.
  Känner till EUROCODE normerna inom området. Förstår standardernas uppbyggnad
  Kan dimensionera tryckkärl enligt gällande standarder.
  Förstår vilka aspekter som bör beaktas vid konstruktion av verktyg och fixturer och kunna tillämpa olika konstruktionsmässiga lösningar.
  Innehar de rittekniska kunskaper som krävs för att modellera stålkonstruktioner.
  Kan dokumentera beräkningar och konstruktioner i enlighet med CE kraven.
  Förstår hur man med verktygstekniken påverkar helheter. (not translated)

  Assessment criteria – excellent (5)

  Kan självständigt beräkna och dimensionera statiskt belastade plåt och balk konstruktioner.
  Kan bestämma storleken på dynamiska belastningar samt beräkna och dimensionera komponenter utgående från dessa.
  Kan välja material och dimensionera detaljer utsatta för nötning eller värmebelastningar
  Kan självständigt dimensionera avancerade tryckkärl enligt standarderna
  Självständigt kunna planera och konstruera verktyg.
  Kan fastställa kompletta ritningsunderlag för att tillverka krävande stålkonstruktioner
  Kan självständigt dokumentera och redovisa beräkningar och konstruktioner i enlighet med CE kraven
  Kan analysera de tekniska och ekonomiska krav som en produkt ställer på verktygstekniken och kan implementera de vid framställning av verktyg. (not translated)

•   Swedish for Engineers TKV22SV01-3005 31.07.2023-29.10.2023  3 credits  (MAP23D-V) +-
  Competence objectives of the study unit

  The student:
  - can communicate orally and in writing in a structured and linguistic way.
  - is aware of different ways of looking for information and can use it as well as can report according to standard arrangements.
  - can use the reference system and know the work process for scientific writing.

  Prerequisites

  none

  Content of the study unit

  - Summary's or other longer writing assignments
  - Trade Essay
  - Official letters (meeting documents, business letters)
  - Presentation technique and lectures
  - Language care as needed
  - Rules for written reports and scientific work
  - Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Oral presentation: Responsible presentation ability characterized by partly stylistically inappropriate language, unstructured content and lack of commitment. Information retrieval: Ability to search for sources
  to a task but the sources are superficial and elementary. Reporting: Ability to compile a report in which the rules for standard layout are to some extent stated. The language is poor and there are errors, but the report text is understandable. Reference system: Attempts to use a reference system and succeed to some extent.

  Assessment criteria – good (3-4)

  Oral presentation: Good presentation ability characterized by structured content, suitable language and positive attitude. Written presentation: Good written ability which shows that the writer has mastered writing rules and has a sense of style. Information retrieval: Good ability to gather reliable sources for a task. Reporting: Good ability to prepare a clear report in accordance with the rules for standard layout. The language is understandable and functional. Reference system: Good ability to use a reference system in a functional way.

  Assessment criteria – excellent (5)

  Oral presentation: Excellent presentation ability characterized by well thought out and well structured content, clear and versatile language and positive attitude to the topic and situation. A knowledgeable impression is given. Written presentation: Excellent writing ability that shows that the writer uses a versatile, clean and flawless writing language. Information retrieval: Excellent ability to critically search for reliable and credible sources for a task. Reporting: Excellent ability to set up
  a well-structured and visually appealing report. The report text is well written, adapted to the subject and error free. Reference system: Excellent ability to use
  one or more reference systems and know in which subject areas it is used.

  ---

  Mode of delivery

  Face-to-face

  Teaching language

  Swedish

  Timing

  31.07.2023 - 29.10.2023

  Enrollment date range

  29.07.2023 - 27.08.2023

  • 3 credits

  Group(s)

  • MAP23D-V

  Teachers and responsibilities

  Åsa Fagerudd

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Assessment scale

  H-5

•   Swedish for Engineers TKV22SV01-3003 01.01.2023-12.02.2023  3 credits  (ÖH22ELA-LED-V, ...) +-
  Competence objectives of the study unit

  The student:
  - can communicate orally and in writing in a structured and linguistic way.
  - is aware of different ways of looking for information and can use it as well as can report according to standard arrangements.
  - can use the reference system and know the work process for scientific writing.

  Prerequisites

  none

  Content of the study unit

  - Summary's or other longer writing assignments
  - Trade Essay
  - Official letters (meeting documents, business letters)
  - Presentation technique and lectures
  - Language care as needed
  - Rules for written reports and scientific work
  - Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Oral presentation: Responsible presentation ability characterized by partly stylistically inappropriate language, unstructured content and lack of commitment. Information retrieval: Ability to search for sources
  to a task but the sources are superficial and elementary. Reporting: Ability to compile a report in which the rules for standard layout are to some extent stated. The language is poor and there are errors, but the report text is understandable. Reference system: Attempts to use a reference system and succeed to some extent.

  Assessment criteria – good (3-4)

  Oral presentation: Good presentation ability characterized by structured content, suitable language and positive attitude. Written presentation: Good written ability which shows that the writer has mastered writing rules and has a sense of style. Information retrieval: Good ability to gather reliable sources for a task. Reporting: Good ability to prepare a clear report in accordance with the rules for standard layout. The language is understandable and functional. Reference system: Good ability to use a reference system in a functional way.

  Assessment criteria – excellent (5)

  Oral presentation: Excellent presentation ability characterized by well thought out and well structured content, clear and versatile language and positive attitude to the topic and situation. A knowledgeable impression is given. Written presentation: Excellent writing ability that shows that the writer uses a versatile, clean and flawless writing language. Information retrieval: Excellent ability to critically search for reliable and credible sources for a task. Reporting: Excellent ability to set up
  a well-structured and visually appealing report. The report text is well written, adapted to the subject and error free. Reference system: Excellent ability to use
  one or more reference systems and know in which subject areas it is used.

  ---

  Mode of delivery

  Face-to-face

  Learning material

  Study material at Moodle. Svenska skrivregler (2017) Myndigheternas skrivregler (2014)

  Learning methods

  Lectures, group discussions, writing exercises, reports and oral presentations. Some tasks are done in pairs.

  Objects, timing and methods of assessment

  The course is evaluated on the basis of assignments, oral and written. For an approved performance, all assignments must be approved, as well as written interviews. The student has shown that he / she has mastered the given writing rules, can compile linguistically correct documents and is able to orally present a given topic to the public.

  Teaching language

  Swedish

  Timing

  01.01.2023 - 12.02.2023

  Enrollment date range

  01.12.2022 - 31.12.2022

  • 3 credits

  Group(s)

  • ÖH22ELA-LED-V
  • ELA22D-V

  Small group(s)

  • ELA22-S (Size: 30. Open university: 0.)
  • ELA22-Y (Size: 30. Open university: 0.)

  Teachers and responsibilities

  Åsa Fagerudd

  Additional information

  -

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  -

  Practical training and working life co-operation

  -

  Exam dates and retake possibilities

  Rehearsal interrogation at the last lesson. Other occasions for the rehearsal on re-examination occasions.

  Internationa connections

  -

  Student's schedule and workload

  81 hours work for 3 credits, of which 30 hours in class and 51 hours work on their own time.

  Content scheduling

  -

  Assessment criteria

  does not meet the requirements for the grade 1.

  Assessment criteria – satisfactory (1-2)

  Oral presentation: Responsible presentation ability characterized by partially stylistically inappropriate language, unstructured content and lack of commitment.
  Written presentation: Responsible written ability demonstrating uncertainty regarding rewrite rules and expressing ice cream.
  Information retrieval: Ability to search for sources of a task but the sources erratic and elementary.
  Reporting: Ability to prepare a report in which the rules for the standard layout appear to some extent. The language is poor and there are errors, but the report text is understandable.
  Reference system: Attempts to use a reference system and succeed to some extent.

  Assessment criteria – good (3-4)

  Oral presentation: Good presentation ability characterized by structured content, suitable language and positive attitude.
  Written presentation: Good written ability which shows that the writer has mastered writing rules and has a sense of style.
  Information retrieval: Good ability to gather reliable sources for a task.
  Reporting: Good ability to prepare a clear report in accordance with the rules for standard layout. The language is
  understandable and functioning.
  Reference system: Good ability to use a reference system in a functional way.

  Assessment criteria – excellent (5)

  Oral presentation: Excellent presentation ability characterized by well thought out and well structured content, clear and versatile language and positive attitude to the topic and situation. A knowledgeable impression is given.
  Written presentation: Excellent writing ability which shows that the writer uses a versatile, clean and flawless written language.
  Information retrieval: Excellent ability to critically search for reliable and credible sources of a task.
  Reporting: Excellent ability to produce a well-structured and visually appealing report. The report text is well written, adapted to the subject and error free.
  Reference system: Excellent ability to use one or more reference systems and to know in which subject areas it is used.

•   Swedish for Engineers TKV22SV01-3001 29.08.2022-16.10.2022  3 credits  (MAP22D-V, ...) +-
  Competence objectives of the study unit

  The student:
  - can communicate orally and in writing in a structured and linguistic way.
  - is aware of different ways of looking for information and can use it as well as can report according to standard arrangements.
  - can use the reference system and know the work process for scientific writing.

  Prerequisites

  none

  Content of the study unit

  - Summary's or other longer writing assignments
  - Trade Essay
  - Official letters (meeting documents, business letters)
  - Presentation technique and lectures
  - Language care as needed
  - Rules for written reports and scientific work
  - Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Oral presentation: Responsible presentation ability characterized by partly stylistically inappropriate language, unstructured content and lack of commitment. Information retrieval: Ability to search for sources
  to a task but the sources are superficial and elementary. Reporting: Ability to compile a report in which the rules for standard layout are to some extent stated. The language is poor and there are errors, but the report text is understandable. Reference system: Attempts to use a reference system and succeed to some extent.

  Assessment criteria – good (3-4)

  Oral presentation: Good presentation ability characterized by structured content, suitable language and positive attitude. Written presentation: Good written ability which shows that the writer has mastered writing rules and has a sense of style. Information retrieval: Good ability to gather reliable sources for a task. Reporting: Good ability to prepare a clear report in accordance with the rules for standard layout. The language is understandable and functional. Reference system: Good ability to use a reference system in a functional way.

  Assessment criteria – excellent (5)

  Oral presentation: Excellent presentation ability characterized by well thought out and well structured content, clear and versatile language and positive attitude to the topic and situation. A knowledgeable impression is given. Written presentation: Excellent writing ability that shows that the writer uses a versatile, clean and flawless writing language. Information retrieval: Excellent ability to critically search for reliable and credible sources for a task. Reporting: Excellent ability to set up
  a well-structured and visually appealing report. The report text is well written, adapted to the subject and error free. Reference system: Excellent ability to use
  one or more reference systems and know in which subject areas it is used.

  ---

  Person(s) in charge

  Kaj Rintanen

  Mode of delivery

  Face-to-face

  Learning material

  Study material at Moodle. Svenska skrivregler (2017) Myndigheternas skrivregler (2014)

  Learning methods

  Lectures, group discussions, writing exercises, reports and oral presentations. Some tasks are done in pairs.

  Objects, timing and methods of assessment

  The course is evaluated on the basis of assignments, oral and written. For an approved performance, all assignments must be approved, as well as written interviews. The student has shown that he / she has mastered the given writing rules, can compile linguistically correct documents and is able to orally present a given topic to the public.

  Teaching language

  Swedish

  Timing

  29.08.2022 - 16.10.2022

  Enrollment date range

  15.06.2022 - 11.09.2022

  • 3 credits

  Group(s)

  • MAP22D-V
  • ÖH22MAP-LED-V
  • ÖH22ULA-LED-V

  Teachers and responsibilities

  Åsa Fagerudd

  Additional information

  -

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  -

  Practical training and working life co-operation

  -

  Exam dates and retake possibilities

  Rehearsal interrogation at the last lesson. Other occasions for the rehearsal on re-examination occasions.

  Internationa connections

  -

  Student's schedule and workload

  81 hours work for 3 credits, of which 30 hours in class and 51 hours work on their own time.

  Content scheduling

  -

  Assessment criteria

  does not meet the requirements for the grade 1.

  Assessment criteria – satisfactory (1-2)

  Oral presentation: Responsible presentation ability characterized by partially stylistically inappropriate language, unstructured content and lack of commitment.
  Written presentation: Responsible written ability demonstrating uncertainty regarding rewrite rules and expressing ice cream.
  Information retrieval: Ability to search for sources of a task but the sources erratic and elementary.
  Reporting: Ability to prepare a report in which the rules for the standard layout appear to some extent. The language is poor and there are errors, but the report text is understandable.
  Reference system: Attempts to use a reference system and succeed to some extent.

  Assessment criteria – good (3-4)

  Oral presentation: Good presentation ability characterized by structured content, suitable language and positive attitude.
  Written presentation: Good written ability which shows that the writer has mastered writing rules and has a sense of style.
  Information retrieval: Good ability to gather reliable sources for a task.
  Reporting: Good ability to prepare a clear report in accordance with the rules for standard layout. The language is
  understandable and functioning.
  Reference system: Good ability to use a reference system in a functional way.

  Assessment criteria – excellent (5)

  Oral presentation: Excellent presentation ability characterized by well thought out and well structured content, clear and versatile language and positive attitude to the topic and situation. A knowledgeable impression is given.
  Written presentation: Excellent writing ability which shows that the writer uses a versatile, clean and flawless written language.
  Information retrieval: Excellent ability to critically search for reliable and credible sources of a task.
  Reporting: Excellent ability to produce a well-structured and visually appealing report. The report text is well written, adapted to the subject and error free.
  Reference system: Excellent ability to use one or more reference systems and to know in which subject areas it is used.

•   Swedish for Engineers TKV22SV01-3002 24.10.2022-18.12.2022  3 credits  (BYS22D-V, ...) +-
  Competence objectives of the study unit

  The student:
  - can communicate orally and in writing in a structured and linguistic way.
  - is aware of different ways of looking for information and can use it as well as can report according to standard arrangements.
  - can use the reference system and know the work process for scientific writing.

  Prerequisites

  none

  Content of the study unit

  - Summary's or other longer writing assignments
  - Trade Essay
  - Official letters (meeting documents, business letters)
  - Presentation technique and lectures
  - Language care as needed
  - Rules for written reports and scientific work
  - Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Oral presentation: Responsible presentation ability characterized by partly stylistically inappropriate language, unstructured content and lack of commitment. Information retrieval: Ability to search for sources
  to a task but the sources are superficial and elementary. Reporting: Ability to compile a report in which the rules for standard layout are to some extent stated. The language is poor and there are errors, but the report text is understandable. Reference system: Attempts to use a reference system and succeed to some extent.

  Assessment criteria – good (3-4)

  Oral presentation: Good presentation ability characterized by structured content, suitable language and positive attitude. Written presentation: Good written ability which shows that the writer has mastered writing rules and has a sense of style. Information retrieval: Good ability to gather reliable sources for a task. Reporting: Good ability to prepare a clear report in accordance with the rules for standard layout. The language is understandable and functional. Reference system: Good ability to use a reference system in a functional way.

  Assessment criteria – excellent (5)

  Oral presentation: Excellent presentation ability characterized by well thought out and well structured content, clear and versatile language and positive attitude to the topic and situation. A knowledgeable impression is given. Written presentation: Excellent writing ability that shows that the writer uses a versatile, clean and flawless writing language. Information retrieval: Excellent ability to critically search for reliable and credible sources for a task. Reporting: Excellent ability to set up
  a well-structured and visually appealing report. The report text is well written, adapted to the subject and error free. Reference system: Excellent ability to use
  one or more reference systems and know in which subject areas it is used.

  ---

  Person(s) in charge

  Leif Östman

  Mode of delivery

  Face-to-face

  Learning material

  Study material at Moodle. Svenska skrivregler (2017) Myndigheternas skrivregler (2014)

  Learning methods

  Lectures, group discussions, writing exercises, reports and oral presentations. Some tasks are done in pairs.

  Objects, timing and methods of assessment

  The course is evaluated on the basis of assignments, oral and written. For an approved performance, all assignments must be approved, as well as written interviews. The student has shown that he / she has mastered the given writing rules, can compile linguistically correct documents and is able to orally present a given topic to the public.

  Teaching language

  Swedish

  Timing

  24.10.2022 - 18.12.2022

  Enrollment date range

  15.06.2022 - 30.10.2022

  • 3 credits

  Group(s)

  • BYS22D-V
  • BYL22D-V
  • ÖH22ULA-LED-V
  • ÖH22BYS-LED-V

  Teachers and responsibilities

  Åsa Fagerudd

  Additional information

  -

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  -

  Practical training and working life co-operation

  -

  Exam dates and retake possibilities

  Rehearsal interrogation at the last lesson. Other occasions for the rehearsal on re-examination occasions.

  Internationa connections

  -

  Student's schedule and workload

  81 hours work for 3 credits, of which 30 hours in class and 51 hours work on their own time.

  Content scheduling

  -

  Assessment criteria

  does not meet the requirements for the grade 1.

  Assessment criteria – satisfactory (1-2)

  Oral presentation: Responsible presentation ability characterized by partially stylistically inappropriate language, unstructured content and lack of commitment.
  Written presentation: Responsible written ability demonstrating uncertainty regarding rewrite rules and expressing ice cream.
  Information retrieval: Ability to search for sources of a task but the sources erratic and elementary.
  Reporting: Ability to prepare a report in which the rules for the standard layout appear to some extent. The language is poor and there are errors, but the report text is understandable.
  Reference system: Attempts to use a reference system and succeed to some extent.

  Assessment criteria – good (3-4)

  Oral presentation: Good presentation ability characterized by structured content, suitable language and positive attitude.
  Written presentation: Good written ability which shows that the writer has mastered writing rules and has a sense of style.
  Information retrieval: Good ability to gather reliable sources for a task.
  Reporting: Good ability to prepare a clear report in accordance with the rules for standard layout. The language is
  understandable and functioning.
  Reference system: Good ability to use a reference system in a functional way.

  Assessment criteria – excellent (5)

  Oral presentation: Excellent presentation ability characterized by well thought out and well structured content, clear and versatile language and positive attitude to the topic and situation. A knowledgeable impression is given.
  Written presentation: Excellent writing ability which shows that the writer uses a versatile, clean and flawless written language.
  Information retrieval: Excellent ability to critically search for reliable and credible sources of a task.
  Reporting: Excellent ability to produce a well-structured and visually appealing report. The report text is well written, adapted to the subject and error free.
  Reference system: Excellent ability to use one or more reference systems and to know in which subject areas it is used.

•   Swedish for Engineers TKV22SV01-3004 01.01.2023-05.03.2023  3 credits  (PRE22D-V) +-
  Competence objectives of the study unit

  The student:
  - can communicate orally and in writing in a structured and linguistic way.
  - is aware of different ways of looking for information and can use it as well as can report according to standard arrangements.
  - can use the reference system and know the work process for scientific writing.

  Prerequisites

  none

  Content of the study unit

  - Summary's or other longer writing assignments
  - Trade Essay
  - Official letters (meeting documents, business letters)
  - Presentation technique and lectures
  - Language care as needed
  - Rules for written reports and scientific work
  - Application according to specific education may occur.

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Oral presentation: Responsible presentation ability characterized by partly stylistically inappropriate language, unstructured content and lack of commitment. Information retrieval: Ability to search for sources
  to a task but the sources are superficial and elementary. Reporting: Ability to compile a report in which the rules for standard layout are to some extent stated. The language is poor and there are errors, but the report text is understandable. Reference system: Attempts to use a reference system and succeed to some extent.

  Assessment criteria – good (3-4)

  Oral presentation: Good presentation ability characterized by structured content, suitable language and positive attitude. Written presentation: Good written ability which shows that the writer has mastered writing rules and has a sense of style. Information retrieval: Good ability to gather reliable sources for a task. Reporting: Good ability to prepare a clear report in accordance with the rules for standard layout. The language is understandable and functional. Reference system: Good ability to use a reference system in a functional way.

  Assessment criteria – excellent (5)

  Oral presentation: Excellent presentation ability characterized by well thought out and well structured content, clear and versatile language and positive attitude to the topic and situation. A knowledgeable impression is given. Written presentation: Excellent writing ability that shows that the writer uses a versatile, clean and flawless writing language. Information retrieval: Excellent ability to critically search for reliable and credible sources for a task. Reporting: Excellent ability to set up
  a well-structured and visually appealing report. The report text is well written, adapted to the subject and error free. Reference system: Excellent ability to use
  one or more reference systems and know in which subject areas it is used.

  ---

  Person(s) in charge

  Åsa Fagerudd

  Mode of delivery

  Face-to-face

  Learning material

  Study material at Moodle. Svenska skrivregler (2017) Myndigheternas skrivregler (2014)

  Learning methods

  Lectures, group discussions, writing exercises, reports and oral presentations. Some tasks are done in pairs.

  Objects, timing and methods of assessment

  The course is evaluated on the basis of assignments, oral and written. For an approved performance, all assignments must be approved, as well as written interviews. The student has shown that he / she has mastered the given writing rules, can compile linguistically correct documents and is able to orally present a given topic to the public.

  Teaching language

  Swedish

  Timing

  01.01.2023 - 05.03.2023

  Enrollment date range

  01.12.2022 - 31.12.2022

  • 3 credits

  Group(s)

  • PRE22D-V

  Teachers and responsibilities

  Åsa Fagerudd

  Additional information

  -

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  -

  Practical training and working life co-operation

  -

  Exam dates and retake possibilities

  Rehearsal interrogation at the last lesson. Other occasions for the rehearsal on re-examination occasions.

  Internationa connections

  -

  Student's schedule and workload

  81 hours work for 3 credits, of which 30 hours in class and 51 hours work on their own time.

  Content scheduling

  -

  Assessment criteria

  does not meet the requirements for the grade 1.

  Assessment criteria – satisfactory (1-2)

  Oral presentation: Responsible presentation ability characterized by partially stylistically inappropriate language, unstructured content and lack of commitment.
  Written presentation: Responsible written ability demonstrating uncertainty regarding rewrite rules and expressing ice cream.
  Information retrieval: Ability to search for sources of a task but the sources erratic and elementary.
  Reporting: Ability to prepare a report in which the rules for the standard layout appear to some extent. The language is poor and there are errors, but the report text is understandable.
  Reference system: Attempts to use a reference system and succeed to some extent.

  Assessment criteria – good (3-4)

  Oral presentation: Good presentation ability characterized by structured content, suitable language and positive attitude.
  Written presentation: Good written ability which shows that the writer has mastered writing rules and has a sense of style.
  Information retrieval: Good ability to gather reliable sources for a task.
  Reporting: Good ability to prepare a clear report in accordance with the rules for standard layout. The language is
  understandable and functioning.
  Reference system: Good ability to use a reference system in a functional way.

  Assessment criteria – excellent (5)

  Oral presentation: Excellent presentation ability characterized by well thought out and well structured content, clear and versatile language and positive attitude to the topic and situation. A knowledgeable impression is given.
  Written presentation: Excellent writing ability which shows that the writer uses a versatile, clean and flawless written language.
  Information retrieval: Excellent ability to critically search for reliable and credible sources of a task.
  Reporting: Excellent ability to produce a well-structured and visually appealing report. The report text is well written, adapted to the subject and error free.
  Reference system: Excellent ability to use one or more reference systems and to know in which subject areas it is used.

•   Technical Drawing MAP22MT01-3001 29.08.2022-16.10.2022  3 credits  (MAP22D-V, ...) +-
  Competence objectives of the study unit

  After passing the course the student is expected to:
  
  - master a drawing program for making 2-dimensional drawings.
  - be able to make own technical drawings with sufficient information needed to manufacture components.
  - know the designations and be able to use symbols according to current standards in machine design.
  - be able to critically review drawings for approval in the industrial process.
  - Understand the importance of drawings in the manufacturing process and the impact on the production economy.

  Prerequisites

  None

  Content of the study unit

  - Line types and text
  - Scales, views and projections
  - Sections
  - Dimensioning
  - Threads, screws and nuts
  - Surface roughness and designations
  - Welding designations
  - Dimension tolerances and fits
  - Geometric tolerances
  - Geometric product specifications GPS
  - Assembly drawings and materials
  - Hydraulic and pneumatic process charts

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Understand and be able to read drawing layout and title fields. Understands the layout composition.
  Is able to sketch simple details as a basis for drawings.
  Knows current drawing standards and projections.
  Knows the drawing characters and the symbols and their meaning.
  Knows the basics of tolerance theory.
  Is able to understand different industry drawings
  Knows about some machine elements and their properties.

  Assessment criteria – good (3-4)

  Understands the importance of documentation.
  Can plan the documentation.
  Can apply the sketching technique to simple constructions.
  Can draw and measure simple machine drawings and apply standardized drawing techniques and drawing standards.
  Understands the limitations of manufacturing
  Can introduce tolerances and surface signs in drawings.
  Can apply the symbols of the simple machine elements in drawings.
  Can read various components and their significance in nearby industry drawings

  Assessment criteria – excellent (5)

  Realize the responsibility for the accuracy of the documentation.
  Is able to use databases
  Has developed a three-dimensional way of thinking, and can apply it in drawing up drawings.
  Is able to independently draw and measure complicated machine drawings.
  Is able to consider the possibilities and limitations of manufacturing methods.
  Understands and is able to introduce geometric tolerances.
  Have a good knowledge of various industry drawings.

  Further information

  The course can be conducted remotely.

  ---

  Person(s) in charge

  Kaj Rintanen

  Mode of delivery

  Face-to-face

  Learning material

  Tillgängligt i Moodle. En del material tillgängligt som videon.
  Litteratur: Teknillinen piirtäminen av H. Hasari & P. Salonen (not translated)

  Learning methods

  Föreläsningar med teori och praktiska övningar som ritas med hjälp av ritprogrammet
  Autocad.
  2 Inlämningsuppgifter (not translated)

  Objects, timing and methods of assessment

  Tent (min 18 p, max 55 p) och inlämningsuppgifter (min 15 p, max 45 p). För godkänt kursvitsord
  krävs att minimipoängen för både tenten och inlämningsuppgifterna är uppnådd. Kursvitsordet
  baseras på poängsumman från tenten och inlämningsuppgifterna. (not translated)

  Teaching language

  Swedish

  Timing

  29.08.2022 - 16.10.2022

  Enrollment date range

  15.06.2022 - 11.09.2022

  • 3 credits

  Group(s)

  • MAP22D-V
  • ÖH22MAP-LED-V
  • ÖH22ULA-LED-V

  Small group(s)

  • MAP22-S (Size: 30. Open university: 0.)
  • MAP22-Y (Size: 30. Open university: 0.)

  Teachers and responsibilities

  Kenneth Ehrström

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Mechanical and Production Engineering

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  H-5

  Alternative methods of attainment for implementation

  Kursen kan utföras på distans. (not translated)

  Exam dates and retake possibilities

  Tenttillfälle 1: vecka 38
  Tenttillfälle 2: vecka 39
  Tenttilfälle 3 : Allmän omtent 28.10.2022 (not translated)

  Student's schedule and workload

  Förväntad arbetsmängd: 81 timmar varav 36 timmar schemalagda (not translated)

  Assessment criteria

  Assessment criteria – satisfactory (1-2)

  Förstår och kan läsa ritningslayout och titelfält. Förstår ritteknikens layout komponering.
  Förmår skissa enkla detaljer som grund för uppgörande av ritning.
  Känner till gällande ritningsstandarder och projiceringar.
  Känner till rittecknen och ritsymboler och deras betydelse.
  Känna till maskintekniska tillverkningsmetoder .
  Känna till grunderna i toleransläran.
  Kunna förstå olika branschritningar
  Känna till maskinelement och deras egenskaper . (not translated)

  Assessment criteria – good (3-4)

  Förstå dokumenteringens betydelse.
  Kunna planera dokumentationen.
  Kunna tillämpa skissningstekniken på enkla konstruktioner.
  Kunna rita och måttsätta enkla maskinritningar och tillämpa standardiserade rittekniker och
  ritstandarder.
  Förstå tillverkningens begränsningar
  Kunna införa toleranser och yttecken i ritningar.
  Kunna tillämpa de enkla maskinelementens symboler i ritningar.
  Kunna utläsa olika komponenter och deras betydelse i närliggande branschritningar (not translated)

  Assessment criteria – excellent (5)

  Inser ansvaret för dokumenteringens riktighet .
  Kunna använda databaser
  Har utvecklat ett tredimensionellt tankesätt, och kan tillämpa det i uppgörande av ritningar.
  Självständigt kunna rita och måttsätta komplicerade maskinritningar.
  Kunna beakta tillverkningsmetodernas möjligheter och begränsningar.
  Förstå och kunna införa geometriska toleranser.
  Ha god kännedom om olika branschritningar. (not translated)

•   Technical Reporting TKV18TR01-3015 02.01.2023-02.03.2023  3 credits  (PRE20D-V) +-
  Competence objectives of the study unit

  The student can report and document within the area of ​​competence. She is familiar with writing and layout rules and knows the style level that is appropriate in a formal text. The student can plan an assignment and make associated documentation using critically selected sources of various kinds. The documentation is rooted in practical and theoretical knowledge in the field. They master one or more reference systems.

  Prerequisites

  Swedish for Engineers

  Content of the study unit

  Information retrieval, the work process for more extensive reporting such as degree projects, reference systems, evaluation of reports, rules for written reports and scientific work.

  ---

  Mode of delivery

  Face-to-face

  Learning material

  Exercise assignments and lecture material on Moodle.
  Literature:
  Backman, J., 2016. Rapporter och uppsatser. Lund: Studentlitteratur.
  Nyberg, R. & Tidström A., 2012. Skriv vetenskapliga uppsatser, examensarbeten och avhandlingar. Lund: Studentlitteratur.

  Learning methods

  Lectures, individual assignments, writing assignments in groups, literature studies, oral presentations.

  Objects, timing and methods of assessment

  Approved/Rejected

  Teaching language

  Swedish

  Timing

  02.01.2023 - 02.03.2023

  Enrollment date range

  01.12.2022 - 31.01.2023

  • 3 credits

  Group(s)

  • PRE20D-V

  Teachers and responsibilities

  Åsa Fagerudd

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  Approved/Rejected

  Practical training and working life co-operation

  Guest lecturer from Tritonia.

  Exam dates and retake possibilities

  Rehearsal interrogation at the last lesson. Then on re-examination occasions or other agreement.

  Student's schedule and workload

  81 hours of work for the student during the course divided into 30 hours of work in class and 51 hours of work on their own.

  Assessment criteria

  Approved / Failed

  For approved performance, the following is required:
  Reporting: Ability to report and document within the area of ​​expertise. She has mastered writing and layout rules that distinguish documentation at degree level and know the style level that is appropriate in a formal reporting text in the field of technology.
  Scientific writing: Have the readiness to plan and complete a comprehensive development and project assignment and know the work process for scientific writing. Have preparedness to present grounded reasoning and grounded conclusions. Know and can use writing manuals. Can use one or more
  reference.
  Reading and reviewing: Ability to critically read and review reports in the area of ​​competence and prepare for oral opposition.
  Information retrieval: Ability to critically and systematically search sources and access them in content for written and oral assignments in the area of ​​competence

•   Technical Reporting TKV18TR01-3017 20.02.2023-28.04.2023  3 credits  (BYL20D-V, ...) +-
  Competence objectives of the study unit

  The student can report and document within the area of ​​competence. She is familiar with writing and layout rules and knows the style level that is appropriate in a formal text. The student can plan an assignment and make associated documentation using critically selected sources of various kinds. The documentation is rooted in practical and theoretical knowledge in the field. They master one or more reference systems.

  Prerequisites

  Swedish for Engineers

  Content of the study unit

  Information retrieval, the work process for more extensive reporting such as degree projects, reference systems, evaluation of reports, rules for written reports and scientific work.

  ---

  Mode of delivery

  Face-to-face

  Learning material

  Exercise assignments and lecture material on Moodle.
  Literature:
  Backman, J., 2016. Rapporter och uppsatser. Lund: Studentlitteratur.
  Nyberg, R. & Tidström A., 2012. Skriv vetenskapliga uppsatser, examensarbeten och avhandlingar. Lund: Studentlitteratur.

  Learning methods

  Lectures, individual assignments, writing assignments in groups, literature studies, oral presentations.

  Objects, timing and methods of assessment

  Approved/Rejected

  Teaching language

  Swedish

  Timing

  20.02.2023 - 28.04.2023

  Enrollment date range

  01.12.2022 - 16.01.2023

  • 3 credits

  Group(s)

  • BYL20D-V
  • BYS20D-V

  Teachers and responsibilities

  Åsa Fagerudd, Leif Östman

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  Approved/Rejected

  Practical training and working life co-operation

  Guest lecturer from Tritonia.

  Exam dates and retake possibilities

  Rehearsal interrogation at the last lesson. Then on re-examination occasions or other agreement.

  Student's schedule and workload

  81 hours of work for the student during the course divided into 30 hours of work in class and 51 hours of work on their own.

  Assessment criteria

  Approved / Failed

  For approved performance, the following is required:
  Reporting: Ability to report and document within the area of ​​expertise. She has mastered writing and layout rules that distinguish documentation at degree level and know the style level that is appropriate in a formal reporting text in the field of technology.
  Scientific writing: Have the readiness to plan and complete a comprehensive development and project assignment and know the work process for scientific writing. Have preparedness to present grounded reasoning and grounded conclusions. Know and can use writing manuals. Can use one or more
  reference.
  Reading and reviewing: Ability to critically read and review reports in the area of ​​competence and prepare for oral opposition.
  Information retrieval: Ability to critically and systematically search sources and access them in content for written and oral assignments in the area of ​​competence

•   Technical Reporting TKV18TR01-3012 24.10.2022-18.12.2022  3 credits  (MAP20D-V) +-
  Competence objectives of the study unit

  The student can report and document within the area of ​​competence. She is familiar with writing and layout rules and knows the style level that is appropriate in a formal text. The student can plan an assignment and make associated documentation using critically selected sources of various kinds. The documentation is rooted in practical and theoretical knowledge in the field. They master one or more reference systems.

  Prerequisites

  Swedish for Engineers

  Content of the study unit

  Information retrieval, the work process for more extensive reporting such as degree projects, reference systems, evaluation of reports, rules for written reports and scientific work.

  ---

  Person(s) in charge

  Kaj Rintanen

  Mode of delivery

  Face-to-face

  Learning material

  Exercise assignments and lecture material on Moodle.
  Literature:
  Backman, J., 2016. Rapporter och uppsatser. Lund: Studentlitteratur.
  Nyberg, R. & Tidström A., 2012. Skriv vetenskapliga uppsatser, examensarbeten och avhandlingar. Lund: Studentlitteratur.

  Learning methods

  Lectures, individual assignments, writing assignments in groups, literature studies, oral presentations.

  Objects, timing and methods of assessment

  Approved/Rejected

  Teaching language

  Swedish

  Timing

  24.10.2022 - 18.12.2022

  Enrollment date range

  15.06.2022 - 24.10.2022

  • 3 credits

  Group(s)

  • MAP20D-V

  Small group(s)

  • MAP20-V-K (Size: 55. Open university: 0.)
  • MAP20-V-B (Size: 55. Open university: 0.)
  • MAP20-V-D (Size: 55. Open university: 0.)

  Teachers and responsibilities

  Åsa Fagerudd

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  Approved/Rejected

  Practical training and working life co-operation

  Guest lecturer from Tritonia.

  Exam dates and retake possibilities

  Rehearsal interrogation at the last lesson. Then on re-examination occasions or other agreement.

  Student's schedule and workload

  81 hours of work for the student during the course divided into 30 hours of work in class and 51 hours of work on their own.

  Assessment criteria

  Approved / Failed

  For approved performance, the following is required:
  Reporting: Ability to report and document within the area of ​​expertise. She has mastered writing and layout rules that distinguish documentation at degree level and know the style level that is appropriate in a formal reporting text in the field of technology.
  Scientific writing: Have the readiness to plan and complete a comprehensive development and project assignment and know the work process for scientific writing. Have preparedness to present grounded reasoning and grounded conclusions. Know and can use writing manuals. Can use one or more
  reference.
  Reading and reviewing: Ability to critically read and review reports in the area of ​​competence and prepare for oral opposition.
  Information retrieval: Ability to critically and systematically search sources and access them in content for written and oral assignments in the area of ​​competence

•   Technical Reporting TKV18TR01-3013 29.08.2022-30.10.2022  3 credits  (ELA20D-V) +-
  Competence objectives of the study unit

  The student can report and document within the area of ​​competence. She is familiar with writing and layout rules and knows the style level that is appropriate in a formal text. The student can plan an assignment and make associated documentation using critically selected sources of various kinds. The documentation is rooted in practical and theoretical knowledge in the field. They master one or more reference systems.

  Prerequisites

  Swedish for Engineers

  Content of the study unit

  Information retrieval, the work process for more extensive reporting such as degree projects, reference systems, evaluation of reports, rules for written reports and scientific work.

  ---

  Person(s) in charge

  Ronnie Sundsten

  Mode of delivery

  Face-to-face

  Learning material

  Exercise assignments and lecture material on Moodle.
  Literature:
  Backman, J., 2016. Rapporter och uppsatser. Lund: Studentlitteratur.
  Nyberg, R. & Tidström A., 2012. Skriv vetenskapliga uppsatser, examensarbeten och avhandlingar. Lund: Studentlitteratur.

  Learning methods

  Lectures, individual assignments, writing assignments in groups, literature studies, oral presentations.

  Objects, timing and methods of assessment

  Approved/Rejected

  Teaching language

  Swedish

  Timing

  29.08.2022 - 30.10.2022

  Enrollment date range

  15.06.2022 - 11.09.2022

  • 3 credits

  Group(s)

  • ELA20D-V

  Small group(s)

  • ELA20-V-A (Size: 40. Open university: 0.)
  • ELA20-V-E (Size: 40. Open university: 0.)
  • ELA20-V-K (Size: 40. Open university: 0.)
  • ELA20-V-I (Size: 40. Open university: 0.)

  Teachers and responsibilities

  Åsa Fagerudd

  Responsible unit

  Faculty of Technology and Seafaring

  Degree Programme(s)

  Degree Programme in Civil and Construction Engineering, Engineer (Land Surveying), Degree Programme in Civil and Construction Engineering, Degree Programme in Mechanical and Production Engineering, Degree Programme in Electrical Engineering and Automation, Degree Programme in Industrial Management

  Campus

  Vasa, Wolffskavägen 33

  Assessment scale

  Approved/Rejected

  Practical training and working life co-operation

  Guest lecturer from Tritonia.

  Exam dates and retake possibilities

  Rehearsal interrogation at the last lesson. Then on re-examination occasions or other agreement.

  Student's schedule and workload

  81 hours of work for the student during the course divided into 30 hours of work in class and 51 hours of work on their own.

  Assessment criteria

  Approved / Failed

  For approved performance, the following is required:
  Reporting: Ability to report and document within the area of ​​expertise. She has mastered writing and layout rules that distinguish documentation at degree level and know the style level that is appropriate in a formal reporting text in the field of technology.
  Scientific writing: Have the readiness to plan and complete a comprehensive development and project assignment and know the work process for scientific writing. Have preparedness to present grounded reasoning and grounded conclusions. Know and can use writing manuals. Can use one or more
  reference.
  Reading and reviewing: Ability to critically read and review reports in the area of ​​competence and prepare for oral opposition.
  Information retrieval: Ability to critically and systematically search sources and access them in content for written and oral assignments in the area of ​​competence