Automotive Technology 1Laajuus (5 cr)
Code: MAP22BI01
Credits
5 op
Objective
- After completing the course, the student should know the basics of selected parts of car technology, both traditional and modern.
Content
- The basics of selected parts of car technology as well as road holding and alternative energy solutions.
Qualifications
None
Assessment criteria, satisfactory (1)
- Know the principles of braking forces and their power requirements. Knows the design of brake systems in modern vehicles and other safety solutions.-Know different solutions for suspension and suspension on light vehicles- Knows what alternative energy sources are available such as hybrid technology, electric cars etc.- Know the vehicle legislation in applicable parts
Assessment criteria, good (3)
--Can calculate and assess the suitability of different vehicle solutions in terms of performance, economic and environmentally friendly operation. Likewise, brake and safety solutions-Can explain and assess the characteristics of different suspension systems-Can assess the suitability of alternative energy sources for propulsion of vehicles depending on the transport needs or the tasks of a work machine-Can understand and judge the whole in different vehicle solutions
Assessment criteria, excellent (5)
- Can apply calculation methods for different vehicle solutions and create new solutionsCan apply versatile knowledge when assessing a vehicle's road characteristics- Can account for energy accumulating solutions for the vehicle's drive system- Can impartially argue about the suitability of different vehicle solutions in different contexts
Assessment criteria, approved/failed
- Active participation in the course- Approved exams (all)
Materials
-Presented in the course by the lecturer. The material may vary between different courses depending on what is currently in the field of automotive technology at the moment.
Enrollment
01.12.2024 - 05.01.2025
Timing
06.01.2025 - 27.04.2025
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Faculty of Technology and Seafaring
Campus
Vasa, Wolffskavägen 33
Teaching languages
- Svenska
Degree programmes
- Degree Programme in Mechanical and Production Engineering
Teachers
- Mikael Tätting
- Mikael Tätting
Teacher in charge
Kaj Rintanen
Scheduling groups
- MAP24-B (Size: 40. Open UAS: 0.)
Groups
-
MAP24D-VIngenjör (YH), maskin- och produktionsteknik, 2024 dagstudier
Small groups
- MAP24-B
Objective
- After completing the course, the student should know the basics of selected parts of car technology, both traditional and modern.
Content
- The basics of selected parts of car technology as well as road holding and alternative energy solutions.
Location and time
According to schedule
Materials
The course material is provided at Moodle and presented at the first course opportunity.
Teaching methods
Lectures and project assignments. External lecturers can also be used.
Employer connections
Excursions to car companies in Vaasa
Exam schedules
The course contains two exams during the course. The times are determined during the course according to agreement with the participants.
International connections
None
Student workload
The use of time consists of participation in the lectures, project assignments done in the student's own time, and preparation for the exams. The distribution of time is something like this:
1/3 Lectures
1/3 Assignments
1/3 Preparation for exams
Content scheduling
- The group project starts at the beginning of the course. The presentations will be held according to agreement. The lectures are held during the course according to schedule
Further information
Notification of participation in the course is made to the course leader no later than two weeks from the start of the course.
Evaluation scale
H-5
Assessment criteria, satisfactory (1)
- Know the principles of braking forces and their power requirements. Knows the design of brake systems in modern vehicles and other safety solutions.-Know different solutions for suspension and suspension on light vehicles- Knows what alternative energy sources are available such as hybrid technology, electric cars etc.- Know the vehicle legislation in applicable parts
Assessment criteria, good (3)
--Can calculate and assess the suitability of different vehicle solutions in terms of performance, economic and environmentally friendly operation. Likewise, brake and safety solutions-Can explain and assess the characteristics of different suspension systems-Can assess the suitability of alternative energy sources for propulsion of vehicles depending on the transport needs or the tasks of a work machine-Can understand and judge the whole in different vehicle solutions
Assessment criteria, excellent (5)
- Can apply calculation methods for different vehicle solutions and create new solutionsCan apply versatile knowledge when assessing a vehicle's road characteristics- Can account for energy accumulating solutions for the vehicle's drive system- Can impartially argue about the suitability of different vehicle solutions in different contexts
Assessment criteria, approved/failed
- Active participation in the course- Approved exams (all)
Assessment methods and criteria
- Participation
- Group assignment
- Exam results
Assessment criteria, fail (0)
Students fail:
- if not all tests are approved
- if not participated in the lectures
- If not done the project assignment.
Assessment criteria, satisfactory (1-2)
Automotive engineering:
Know the principles of braking forces and their power requirements. Knows the design of brake systems in modern vehicles and other safety solutions.
Roadholding:
Knows different solutions for suspension on light vehicles
Alternative energy solutions:
Knows what alternative energy sources are available.
Vehicles Legislation:
Know the vehicle legislation in applicable parts
Assessment criteria, good (3-4)
Automotive engineering:
Able to calculate and assess the suitability of different vehicle solutions in terms of performance, economic and environmentally friendly operation. Likewise, brake and safety solutions
Roadholding:
Can explain and evaluate the characteristics of different suspension systems
Alternative energy solutions:
Can assess the suitability of alternative sources of energy for propulsion of vehicles depending on the transport needs or the tasks of a working machine
Vehicles Legislation:
Can understand and judge the whole in different vehicle solutions
Assessment criteria, excellent (5)
Automotive engineering:
Can apply calculation methods for different vehicle solutions and create new solutions
Roadholding:
Can apply versatile knowledge when assessing a vehicle's road characteristics
Alternative energy solutions:
Can account for energy accumulating solutions for the vehicle's drive system
Vehicles Legislation:
Can impartially argue about the suitability of different vehicle solutions in different contexts
Qualifications
None
Enrollment
30.11.2023 - 07.01.2024
Timing
01.01.2024 - 21.04.2024
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Faculty of Technology and Seafaring
Campus
Vasa, Wolffskavägen 33
Teaching languages
- Svenska
Teachers
- Mikael Tätting
Teacher in charge
Kaj Rintanen
Scheduling groups
- MAP23-B (Size: 40. Open UAS: 0.)
Groups
-
MAP23D-VIngenjör (YH), maskin- och produktionsteknik, 2023 dagstudier
Small groups
- MAP23-B
Objective
- After completing the course, the student should know the basics of selected parts of car technology, both traditional and modern.
Content
- The basics of selected parts of car technology as well as road holding and alternative energy solutions.
Location and time
Technobotnia in Vasa VT 2023
Materials
The course material is provided at Moodle and presented at the first course opportunity.
Teaching methods
Lectures and project assignments. External lecturers can also be used.
Employer connections
Excursions to car companies in Vaasa
(depending on group size and Covid-19 mode)
Exam schedules
The course contains two to three exams during the course. The times are determined during the course according to agreement with the participants.
Student workload
The use of time consists of participation in the lectures, project assignments done in the student's own time, and preparation for the exams. The course is 5sp.
Content scheduling
- Basics of automotive engineering
- Road keeping
- Alternative energy solutions
- Vehicle legislation
Further information
Notification of participation in the course is made to the course leader no later than two weeks from the start of the course.
Evaluation scale
H-5
Assessment criteria, satisfactory (1)
- Know the principles of braking forces and their power requirements. Knows the design of brake systems in modern vehicles and other safety solutions.-Know different solutions for suspension and suspension on light vehicles- Knows what alternative energy sources are available such as hybrid technology, electric cars etc.- Know the vehicle legislation in applicable parts
Assessment criteria, good (3)
--Can calculate and assess the suitability of different vehicle solutions in terms of performance, economic and environmentally friendly operation. Likewise, brake and safety solutions-Can explain and assess the characteristics of different suspension systems-Can assess the suitability of alternative energy sources for propulsion of vehicles depending on the transport needs or the tasks of a work machine-Can understand and judge the whole in different vehicle solutions
Assessment criteria, excellent (5)
- Can apply calculation methods for different vehicle solutions and create new solutionsCan apply versatile knowledge when assessing a vehicle's road characteristics- Can account for energy accumulating solutions for the vehicle's drive system- Can impartially argue about the suitability of different vehicle solutions in different contexts
Assessment criteria, approved/failed
- Active participation in the course- Approved exams (all)
Assessment methods and criteria
- Exams 2-3 are the basis for the assessment and the student's active participation
Assessment criteria, fail (0)
Students fail:
- if not all tests are approved
- if the student has not participated in the lectures and done the project assignment.
Assessment criteria, satisfactory (1-2)
Automotive engineering:
Know the principles of braking forces and their power requirements. Knows the design of brake systems in modern vehicles and other safety solutions.
Roadholding:
Knows different solutions for suspension on light vehicles
Alternative energy solutions:
Knows what alternative energy sources are available.
Vehicles Legislation:
Know the vehicle legislation in applicable parts
Assessment criteria, good (3-4)
Automotive engineering:
Able to calculate and assess the suitability of different vehicle solutions in terms of performance, economic and environmentally friendly operation. Likewise, brake and safety solutions
Roadholding:
Can explain and evaluate the characteristics of different suspension systems
Alternative energy solutions:
Can assess the suitability of alternative sources of energy for propulsion of vehicles depending on the transport needs or the tasks of a working machine
Vehicles Legislation:
Can understand and judge the whole in different vehicle solutions
Assessment criteria, excellent (5)
Automotive engineering:
Can apply calculation methods for different vehicle solutions and create new solutions
Roadholding:
Can apply versatile knowledge when assessing a vehicle's road characteristics
Alternative energy solutions:
Can account for energy accumulating solutions for the vehicle's drive system
Vehicles Legislation:
Can impartially argue about the suitability of different vehicle solutions in different contexts
Qualifications
None
Enrollment
01.12.2022 - 02.01.2023
Timing
02.01.2023 - 23.04.2023
Number of ECTS credits allocated
5 op
Mode of delivery
Contact teaching
Unit
Faculty of Technology and Seafaring
Campus
Vasa, Wolffskavägen 33
Teaching languages
- Svenska
Teachers
- Rolf Dahlin
Teacher in charge
Kaj Rintanen
Scheduling groups
- MAP22-B (Size: 0. Open UAS: 0.)
Groups
-
MAP22D-VIngenjör (YH), maskin- och produktionsteknik, 2022 dagstudier
Small groups
- MAP22-B
Objective
- After completing the course, the student should know the basics of selected parts of car technology, both traditional and modern.
Content
- The basics of selected parts of car technology as well as road holding and alternative energy solutions.
Location and time
Technobotnia in Vasa VT 2023
Materials
The course material is provided at Moodle and presented at the first course opportunity.
Teaching methods
Lectures and project assignments. External lecturers are also used.
Employer connections
Excursions to car companies in Vaasa
(depending on group size and Covid-19 mode)
Exam schedules
The course contains two to three exams during the course. The times are determined during the course according to agreement with the participants.
Student workload
The use of time consists of participation in the lectures, project assignments done in the student's own time, and preparation for the exams. The course is 5sp.
Content scheduling
- Basics of automotive engineering
- Road keeping
- Alternative energy solutions
- Vehicle legislation
Further information
Notification of participation in the course is made to the course leader no later than two weeks from the start of the course.
Evaluation scale
H-5
Assessment criteria, satisfactory (1)
- Know the principles of braking forces and their power requirements. Knows the design of brake systems in modern vehicles and other safety solutions.-Know different solutions for suspension and suspension on light vehicles- Knows what alternative energy sources are available such as hybrid technology, electric cars etc.- Know the vehicle legislation in applicable parts
Assessment criteria, good (3)
--Can calculate and assess the suitability of different vehicle solutions in terms of performance, economic and environmentally friendly operation. Likewise, brake and safety solutions-Can explain and assess the characteristics of different suspension systems-Can assess the suitability of alternative energy sources for propulsion of vehicles depending on the transport needs or the tasks of a work machine-Can understand and judge the whole in different vehicle solutions
Assessment criteria, excellent (5)
- Can apply calculation methods for different vehicle solutions and create new solutionsCan apply versatile knowledge when assessing a vehicle's road characteristics- Can account for energy accumulating solutions for the vehicle's drive system- Can impartially argue about the suitability of different vehicle solutions in different contexts
Assessment criteria, approved/failed
- Active participation in the course- Approved exams (all)
Assessment methods and criteria
- Exams 2-3 are the basis for the assessment and the student's active participation
Assessment criteria, fail (0)
Students fail:
- if not all tests are approved
- if the student has not participated in the lectures and done the project assignment.
Assessment criteria, satisfactory (1-2)
Automotive engineering:
Know the principles of braking forces and their power requirements. Knows the design of brake systems in modern vehicles and other safety solutions.
Roadholding:
Feel different solutions for suspension and suspension on light vehicles
Alternative energy solutions:
Knows what alternative energy sources are available such as hybrid technology, electric cars etc.
Vehicles Legislation:
Know the vehicle legislation in applicable parts
Assessment criteria, good (3-4)
Automotive engineering:
Able to calculate and assess the suitability of different vehicle solutions in terms of performance, economic and environmentally friendly operation. Likewise, brake and safety solutions
Roadholding:
Can explain and evaluate the characteristics of different suspension systems
Alternative energy solutions:
Can assess the suitability of alternative sources of energy for propulsion of vehicles depending on the transport needs or the tasks of a working machine
Vehicles Legislation:
Can understand and judge the whole in different vehicle solutions
Assessment criteria, excellent (5)
Automotive engineering:
Can apply calculation methods for different vehicle solutions and create new solutions
Roadholding:
Can apply versatile knowledge when assessing a vehicle's road characteristics
Alternative energy solutions:
Can account for energy accumulating solutions for the vehicle's drive system
Vehicles Legislation:
Can impartially argue about the suitability of different vehicle solutions in different contexts
Qualifications
None