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Structural Mechanics, Applied Course 2Poäng (3 sp)

Kod: SER22SM03

Poäng

3 op

Studieperiodens (kursens) lärandemål

In demanding and exceptionally demanding structural design:

The student is able to apply
- plastics theory
- torsion

The student is able to take into account
- how the eccentricity of a load causes torsion on a structure and is able to determine the torsional stress of a rectangular profile
- in plasticity theory, the possibility of load redistribution and the conditions for the formation of a plastic joint

The student is able to calculate and examine
- the stress distribution according to the plasticity theory

The student is able to identify
- the difference in the calculation of the elastic and plastic bending resistance

Studieperiodens (kursens) innehåll

- Plastics theory
- Torsion

The following skills are practiced:
Making clear and professional calculations
Presentation of own calculations
Using appropriate sources to expand your own knowledge
Terminology in Finnish, Swedish and English

Förkunskapskrav

Bachelor of Civil Engineering or equal

Bedömningskriterier, tillräcklig (1)

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

Bedömningskriterier, goda-synnerligen goda (3-4)

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

Bedömningskriterier, berömliga (5)

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

Öppna i ny ruta
Anmälningstid

01.12.2025 - 03.03.2026

Tajmning

04.03.2026 - 01.04.2026

Antal studiepoäng

3 op

Andel virtuell undervisning

3 op

Prestationssätt

Virtuell undervisning

Ansvarig enhet

Institutionen för teknik och sjöfart

Undervisningsspråk
  • Englanti
Antal studerande (min. - max.)

0 - 40

Utbildning
  • Degree Programme in Structural Engineering
Lärare
  • Jussi Jalkanen
  • Aku Aspila
  • Towe Andersson
Lärare

Towe Andersson

Grupper
  • SE25H-E
    Structural Engineering, 2025

Lärandemål

In demanding and exceptionally demanding structural design:

The student is able to apply
- plastics theory
- torsion

The student is able to take into account
- how the eccentricity of a load causes torsion on a structure and is able to determine the torsional stress of a rectangular profile
- in plasticity theory, the possibility of load redistribution and the conditions for the formation of a plastic joint

The student is able to calculate and examine
- the stress distribution according to the plasticity theory

The student is able to identify
- the difference in the calculation of the elastic and plastic bending resistance

Innehåll

- Plastics theory
- Torsion

The following skills are practiced:
Making clear and professional calculations
Presentation of own calculations
Using appropriate sources to expand your own knowledge
Terminology in Finnish, Swedish and English

Vitsordsskala

H-5

Bedömningskriterier, tillfredsställande-synnerligen tillfredsställande (1-2)

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

Arviointikriteerit, goda-synnerligen goda (3-4)

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

Arviointikriteerit, berömliga (5)

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

Förkunskapskrav

Bachelor of Civil Engineering or equal

Öppna i ny ruta
Anmälningstid

01.12.2024 - 04.03.2025

Tajmning

05.03.2025 - 02.04.2025

Antal studiepoäng

3 op

Prestationssätt

Kontaktundervisning

Ansvarig enhet

Institutionen för teknik och sjöfart

Verksamhetspunkt

Ekenäs, Raseborgsvägen 9

Undervisningsspråk
  • Englanti
Utbildning
  • Degree Programme in Structural Engineering
Lärare
  • Aku Aspila
  • Jussi Jalkanen
  • Towe Andersson
Grupper
  • SE24H-E
    Structural Engineering, 2024,

Lärandemål

In demanding and exceptionally demanding structural design:

The student is able to apply
- plastics theory
- torsion

The student is able to take into account
- how the eccentricity of a load causes torsion on a structure and is able to determine the torsional stress of a rectangular profile
- in plasticity theory, the possibility of load redistribution and the conditions for the formation of a plastic joint

The student is able to calculate and examine
- the stress distribution according to the plasticity theory

The student is able to identify
- the difference in the calculation of the elastic and plastic bending resistance

Innehåll

- Plastics theory
- Torsion

The following skills are practiced:
Making clear and professional calculations
Presentation of own calculations
Using appropriate sources to expand your own knowledge
Terminology in Finnish, Swedish and English

Vitsordsskala

H-5

Bedömningskriterier, tillfredsställande-synnerligen tillfredsställande (1-2)

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

Arviointikriteerit, goda-synnerligen goda (3-4)

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

Arviointikriteerit, berömliga (5)

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

Förkunskapskrav

Bachelor of Civil Engineering or equal

Öppna i ny ruta
Anmälningstid

01.12.2023 - 05.03.2024

Tajmning

06.03.2024 - 03.04.2024

Antal studiepoäng

3 op

Prestationssätt

Kontaktundervisning

Ansvarig enhet

Institutionen för teknik och sjöfart

Undervisningsspråk
  • Englanti
Utbildning
  • Degree Programme in Structural Engineering
Lärare
  • Aku Aspila
  • Jussi Jalkanen
  • Towe Andersson
Grupper
  • SE23HP-E
    Structural Engineering, 2023, part-time studies

Lärandemål

In demanding and exceptionally demanding structural design:

The student is able to apply
- plastics theory
- torsion

The student is able to take into account
- how the eccentricity of a load causes torsion on a structure and is able to determine the torsional stress of a rectangular profile
- in plasticity theory, the possibility of load redistribution and the conditions for the formation of a plastic joint

The student is able to calculate and examine
- the stress distribution according to the plasticity theory

The student is able to identify
- the difference in the calculation of the elastic and plastic bending resistance

Innehåll

- Plastics theory
- Torsion

The following skills are practiced:
Making clear and professional calculations
Presentation of own calculations
Using appropriate sources to expand your own knowledge
Terminology in Finnish, Swedish and English

Vitsordsskala

H-5

Bedömningskriterier, tillfredsställande-synnerligen tillfredsställande (1-2)

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

Arviointikriteerit, goda-synnerligen goda (3-4)

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

Arviointikriteerit, berömliga (5)

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

Förkunskapskrav

Bachelor of Civil Engineering or equal

Öppna i ny ruta
Anmälningstid

15.06.2023 - 05.09.2023

Tajmning

06.09.2023 - 04.10.2023

Antal studiepoäng

3 op

Prestationssätt

Kontaktundervisning

Ansvarig enhet

Institutionen för teknik och sjöfart

Verksamhetspunkt

Ekenäs, Raseborgsvägen 9

Undervisningsspråk
  • Englanti
Utbildning
  • Degree Programme in Structural Engineering
Lärare
  • Aku Aspila
  • Jussi Jalkanen
  • Towe Andersson
Grupper
  • SE22HP-E
    Structural Engineering, 2022, part-time studies

Lärandemål

In demanding and exceptionally demanding structural design:

The student is able to apply
- plastics theory
- torsion

The student is able to take into account
- how the eccentricity of a load causes torsion on a structure and is able to determine the torsional stress of a rectangular profile
- in plasticity theory, the possibility of load redistribution and the conditions for the formation of a plastic joint

The student is able to calculate and examine
- the stress distribution according to the plasticity theory

The student is able to identify
- the difference in the calculation of the elastic and plastic bending resistance

Innehåll

- Plastics theory
- Torsion

The following skills are practiced:
Making clear and professional calculations
Presentation of own calculations
Using appropriate sources to expand your own knowledge
Terminology in Finnish, Swedish and English

Vitsordsskala

H-5

Bedömningskriterier, tillfredsställande-synnerligen tillfredsställande (1-2)

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

Arviointikriteerit, goda-synnerligen goda (3-4)

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

Arviointikriteerit, berömliga (5)

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

Förkunskapskrav

Bachelor of Civil Engineering or equal