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Statics and strength technologyLaajuus (5 cr)

Code: EN00DW67

Credits

5 op

Teaching language

  • Finnish

Responsible person

  • Kalle Tarhonen

Objective

After this course, you can:
Combine force systems to resultants and resolve forces into their components
Define forces that are affecting to bodies in static equilibrium
Define internal forces and moments in bodies
Analyze centers of gravity in bodies and structures
Dimension structures that are stressed by normal-, shear, bending or torsion
Dimension structures against buckling
Design structures that are resistant to fatigue

Content

How can I manipulate forces with the basic laws of mechanics?
What kind of forces affect to bodies that are in static equilibrium?
How do the forces stress components internally?
How do I form a free-body diagram?
How do I dimension structures that are stressed with various type of loading
Does the structure that I design withstand the forces that will be affecting to it?
How to select correct material regarding the stresses in the structures?
How to calculate stresses in structures?
How to communicate in the future with correct terms with structural mechanics professionals.

Enrollment

08.04.2024 - 21.04.2024

Timing

02.09.2024 - 20.12.2024

Number of ECTS credits allocated

5 op

Mode of delivery

Contact teaching

Unit

Department of Construction and Energy Engineering

Campus

Kotka Campus

Teaching languages
  • Finnish
Degree programmes
  • Degree Programme in Energy Engineering
Teachers
  • Kalle Tarhonen
Teacher in charge

Kalle Tarhonen

Groups
  • ENKT23SP
    Energy engineering, full-time studies

Objective

After this course, you can:
Combine force systems to resultants and resolve forces into their components
Define forces that are affecting to bodies in static equilibrium
Define internal forces and moments in bodies
Analyze centers of gravity in bodies and structures
Dimension structures that are stressed by normal-, shear, bending or torsion
Dimension structures against buckling
Design structures that are resistant to fatigue

Content

How can I manipulate forces with the basic laws of mechanics?
What kind of forces affect to bodies that are in static equilibrium?
How do the forces stress components internally?
How do I form a free-body diagram?
How do I dimension structures that are stressed with various type of loading
Does the structure that I design withstand the forces that will be affecting to it?
How to select correct material regarding the stresses in the structures?
How to calculate stresses in structures?
How to communicate in the future with correct terms with structural mechanics professionals.

Opiskelumateriaali

Opiskelumateriaali on käytettävissä Learnissa.

Yksilölliset oppimisväylät

Työviikkopohjaisessa väylässä
Ilmoittautuessasi tälle opintojakson toteutukselle osallistut työjärjestyksen mukaiseen opetukseen ja ohjaukseen. Opiskelusi rytmittyy työjärjestyksen mukaisten ryhmätapaamisten ja itsenäisesti tehtävien oppimistehtävien mukaan.


Työhön integroidussa väylässä
Työhön integroitu oppimisväylä on mahdollinen, jos voit työtehtävissäsi kehittää opintojakson tavoitteissa ja sisällöissä mainittua osaamista. Ota opintojakson opettajaan yhteyttä hyvissä ajoin ennen opintojakson alkua sen määrittämiseksi
• onko työhön integroitu oppimisväylä omassa työtehtävässäsi mahdollinen.
• millaisia näyttöjä osaamisestasi sinun on mahdollista antaa.
• mitä opintojakson osia sinun tulee mahdollisesti lisäksi suorittaa opetukseen osallistuen.

Opintoja nopeuttavana vaihtoehtona
- voit esimerkiksi ilmoittautua aikaisemmin opintonsa aloittaneelle ryhmälle tarjottavalle vastaavalle toteutukselle.
Opintoja nopeuttavassa väylässä

TKI ja työelämäyhteistyö

Mahdollinen vierailijaluento.

Tentit ja muut määräajat

Tentit
- Statiikka
. Lujuusoppi

Harjoitustyö

Opiskelijan työmäärä

135 h työtä, josta:
- 60h luentoja
-20 h Harjoitustyö
-55 h Kotona tehtävät tehtävät ja tenttiin kertaus

Evaluation scale

1-5

Enrollment

06.11.2023 - 17.11.2023

Timing

08.01.2024 - 24.05.2024

Number of ECTS credits allocated

5 op

Mode of delivery

Contact teaching

Unit

Department of Construction and Energy Engineering

Campus

Kotka Campus

Teaching languages
  • Finnish
Degree programmes
  • Degree Programme in Energy Engineering
Teachers
  • Kalle Tarhonen
Teacher in charge

Kalle Tarhonen

Groups
  • ENKT23KM
    Energy engineering, part-time studies

Objective

After this course, you can:
Combine force systems to resultants and resolve forces into their components
Define forces that are affecting to bodies in static equilibrium
Define internal forces and moments in bodies
Analyze centers of gravity in bodies and structures
Dimension structures that are stressed by normal-, shear, bending or torsion
Dimension structures against buckling
Design structures that are resistant to fatigue

Content

How can I manipulate forces with the basic laws of mechanics?
What kind of forces affect to bodies that are in static equilibrium?
How do the forces stress components internally?
How do I form a free-body diagram?
How do I dimension structures that are stressed with various type of loading
Does the structure that I design withstand the forces that will be affecting to it?
How to select correct material regarding the stresses in the structures?
How to calculate stresses in structures?
How to communicate in the future with correct terms with structural mechanics professionals.

Opiskelumateriaali

Mainly material that is distributed in lectures and in Moodle.
Tukeva materiaali:
Outinen: Statiikka 1&2
Salmi: Lujuusoppi

Yksilölliset oppimisväylät

Scheduled track:
In lectures you will learn theory on the subject and do excercises, which are then collectively reviewed.

Independent track:
If you are working a company that is in the similar industry, you can make a a larger development project within your company, which is graded and replaces the excercises within the course. Additionally you have to take the tests in the course. Please contact the lecturer on the start of the course.

TKI ja työelämäyhteistyö

• “This course does not include RDI and work-related cooperation.”

Tentit ja muut määräajat

Exams to upgrade grading must be taken within one year from the end of the course. These exams are to be taken in predetermined days, which are given in the first lecture.

Opiskelijan työmäärä

Active participation in teaching (2h/wk) and excercises done in home (2h/wk)

Further information

Participation in first classroom lecture is mandatory. If student can't participate for some good reason He/She must contact the teacher before the first lecture.
More detailed description and schedule of the course will be told in the first lecture.

Evaluation scale

1-5

Assessment methods and criteria

Grading will be based on the weekly excercices, that will be done in home and to midterm exam (statics) plus final exam (Strength of materials).
Alternatively one can take single paper exam (0-5)

Enrollment

06.04.2023 - 21.04.2023

Timing

04.09.2023 - 15.12.2023

Number of ECTS credits allocated

5 op

Mode of delivery

Contact teaching

Unit

Department of Construction and Energy Engineering

Campus

Kotka Campus

Teaching languages
  • Finnish
Seats

10 - 50

Degree programmes
  • Degree Programme in Energy Engineering
Teachers
  • Kalle Tarhonen
Teacher in charge

Kalle Tarhonen

Groups
  • ENKT22SP
    Energy engineering, full-time studies

Objective

After this course, you can:
Combine force systems to resultants and resolve forces into their components
Define forces that are affecting to bodies in static equilibrium
Define internal forces and moments in bodies
Analyze centers of gravity in bodies and structures
Dimension structures that are stressed by normal-, shear, bending or torsion
Dimension structures against buckling
Design structures that are resistant to fatigue

Content

How can I manipulate forces with the basic laws of mechanics?
What kind of forces affect to bodies that are in static equilibrium?
How do the forces stress components internally?
How do I form a free-body diagram?
How do I dimension structures that are stressed with various type of loading
Does the structure that I design withstand the forces that will be affecting to it?
How to select correct material regarding the stresses in the structures?
How to calculate stresses in structures?
How to communicate in the future with correct terms with structural mechanics professionals.

Opiskelumateriaali

Mainly material that is distributed in lectures and in Moodle.
Tukeva materiaali:
Outinen: Statiikka 1&2
Salmi: Lujuusoppi

Yksilölliset oppimisväylät

Scheduled track:
In lectures you will learn theory on the subject and do excercises, which are then collectively reviewed.

Independent track:
If you are working a company that is in the similar industry, you can make a a larger development project within your company, which is graded and replaces the excercises within the course. Additionally you have to take the tests in the course. Please contact the lecturer on the start of the course.

TKI ja työelämäyhteistyö

Ei sisällä

Tentit ja muut määräajat

Exams to upgrade grading must be taken within one year from the end of the course. These exams are to be taken in predetermined days, which are given in the first lecture.

Opiskelijan työmäärä

Active participation in teaching (2h/wk) and excercises done in home (2h/wk)

Further information

Participation in first classroom lecture is mandatory. If student can't participate for some good reason He/She must contact the teacher before the first lecture.
More detailed description and schedule of the course will be told in the first lecture.

Evaluation scale

1-5

Assessment methods and criteria

Grading will be based on the weekly excercices, that will be done in home and to midterm exam (statics) plus final exam (Strength of materials).
Alternatively one can take single paper exam (0-5)

Enrollment

06.04.2022 - 22.04.2022

Timing

05.09.2022 - 16.12.2022

Number of ECTS credits allocated

5 op

Mode of delivery

Contact teaching

Unit

Department of Construction and Energy Engineering

Campus

Kotka Campus

Teaching languages
  • Finnish
Seats

10 - 50

Degree programmes
  • Degree Programme in Energy Engineering
Teachers
  • Kalle Tarhonen
Teacher in charge

Kalle Tarhonen

Groups
  • ENKT21SP
    Energy engineering, full-time studies

Objective

After this course, you can:
Combine force systems to resultants and resolve forces into their components
Define forces that are affecting to bodies in static equilibrium
Define internal forces and moments in bodies
Analyze centers of gravity in bodies and structures
Dimension structures that are stressed by normal-, shear, bending or torsion
Dimension structures against buckling
Design structures that are resistant to fatigue

Content

How can I manipulate forces with the basic laws of mechanics?
What kind of forces affect to bodies that are in static equilibrium?
How do the forces stress components internally?
How do I form a free-body diagram?
How do I dimension structures that are stressed with various type of loading
Does the structure that I design withstand the forces that will be affecting to it?
How to select correct material regarding the stresses in the structures?
How to calculate stresses in structures?
How to communicate in the future with correct terms with structural mechanics professionals.

Opiskelumateriaali

Mainly material that is distributed in lectures and in Moodle.
Tukeva materiaali:
Outinen: Statiikka 1&2
Salmi: Lujuusoppi

Yksilölliset oppimisväylät

Scheduled track:
In lectures you will learn theory on the subject and do excercises, which are then collectively reviewed.

Independent track:
If you are working a company that is in the similar industry, you can make a a larger development project within your company, which is graded and replaces the excercises within the course. Additionally you have to take the tests in the course. Please contact the lecturer on the start of the course.

TKI ja työelämäyhteistyö

• “This course does not include RDI and work-related cooperation.”

Tentit ja muut määräajat

Exams to upgrade grading must be taken within one year from the end of the course. These exams are to be taken in predetermined days, which are given in the first lecture.

Opiskelijan työmäärä

Active participation in teaching (2h/wk) and excercises done in home (2h/wk)

Further information

Participation in first classroom lecture is mandatory. If student can't participate for some good reason He/She must contact the teacher before the first lecture.
More detailed description and schedule of the course will be told in the first lecture.

Evaluation scale

1-5

Assessment methods and criteria

Grading will be based on the weekly excercices, that will be done in home and to midterm exam (statics) plus final exam (Strength of materials).
Alternatively one can take single paper exam (0-5)

Enrollment

08.11.2021 - 21.11.2021

Timing

10.01.2022 - 27.05.2022

Number of ECTS credits allocated

5 op

Mode of delivery

Contact teaching

Unit

Department of Construction and Energy Engineering

Campus

Kotka Campus

Teaching languages
  • Finnish
Seats

10 - 60

Degree programmes
  • Degree Programme in Energy Engineering
Teachers
  • Kalle Tarhonen
Teacher in charge

Kalle Tarhonen

Groups
  • ENKT21KM
    Energy engineering, part-time studies

Objective

After this course, you can:
Combine force systems to resultants and resolve forces into their components
Define forces that are affecting to bodies in static equilibrium
Define internal forces and moments in bodies
Analyze centers of gravity in bodies and structures
Dimension structures that are stressed by normal-, shear, bending or torsion
Dimension structures against buckling
Design structures that are resistant to fatigue

Content

How can I manipulate forces with the basic laws of mechanics?
What kind of forces affect to bodies that are in static equilibrium?
How do the forces stress components internally?
How do I form a free-body diagram?
How do I dimension structures that are stressed with various type of loading
Does the structure that I design withstand the forces that will be affecting to it?
How to select correct material regarding the stresses in the structures?
How to calculate stresses in structures?
How to communicate in the future with correct terms with structural mechanics professionals.

Opiskelumateriaali

Mainly material that is distributed in lectures and in Moodle.
Tukeva materiaali:
Outinen: Statiikka 1&2
Salmi: Lujuusoppi

Yksilölliset oppimisväylät

Scheduled track:
In lectures you will learn theory on the subject and do excercises, which are then collectively reviewed.

Independent track:
If you are working a company that is in the similar industry, you can make a a larger development project within your company, which is graded and replaces the excercises within the course. Additionally you have to take the tests in the course. Please contact the lecturer on the start of the course.

TKI ja työelämäyhteistyö

• “This course does not include RDI and work-related cooperation.”

Tentit ja muut määräajat

Exams to upgrade grading must be taken within one year from the end of the course. These exams are to be taken in predetermined days, which are given in the first lecture.

Opiskelijan työmäärä

Active participation in teaching (2h/wk) and excercises done in home (2h/wk)

Further information

Participation in first classroom lecture is mandatory. If student can't participate for some good reason He/She must contact the teacher before the first lecture.
More detailed description and schedule of the course will be told in the first lecture.

Evaluation scale

1-5

Assessment methods and criteria

Grading will be based on the weekly excercices, that will be done in home and to midterm exam (statics) plus final exam (Strength of materials).
Alternatively one can take single paper exam (0-5)