Artesis Plantijn Hogeschool Antwerpen
Wetenschap en Techniek
campus Spoor Noord Ellermanstraat
Ellermanstraat 33 - 2060 Antwerpen
wt@ap.be
Mechanics / theory of strength of materials31765/1764/1920/1/75
Study guide

Mechanics / theory of strength of materials

31765/1764/1920/1/75
Academic year 2019-20
Is found in:
  • Associate Degree Electromechanics (Antwerp)
In other study programme:
  • Associate Degree Electromechanics (Malines) as Mechanics / theory of strength of materials
  • Associate Degree in Electromechanical Systems (Antwerp) as Mechanics
This is a single course unit.
Study load: 7 credits
It is not possible to enrol in this course unit under
  • exam contract (to obtain a credit).
  • exam contract (to obtain a degree).
Teaching staff: Vyncke Dirk
Languages: Dutch
Scheduled for: Semester 1
This course unit is marked out of 20 (rounded to an integer).
Re-sit exam: is possible.
Possibility of tolerance: This course unit is eligible for tolerance according to the criteria as determined by the degree programme you are enrolled in.
Total study time: 182,00 hours

Prerequisites

There are no prerequisites for this course.

Learning outcomes (list)

Specific final competences
The student constructs the transvere force line of a beam loaded on bending.
The student constructs the bending moment line of a beam loaded on bending.
The student calculates the moment of inertia of a regular section.
The student calculates the wringing angle and the specific wringing angle of an axis under a load.
The student reproduces the various phases which take shape in a stress-strain curve of a tension test.
The student applies the terms of the law of Hooke on practical examples.
The student describes the terms of pull, pressure, neutral line and the types of pressures and tensions.
The student calculates the permitted tension in function of the way of pressure for the given type of material and compares this with the occurred tension.
The student calculates the size and sense of a moment of couple judging by power(s) and geometry.
The student calculates the tension (pull/ push/ slide or a combination) of loaded tool components.
The student calculates the torsion which occurs in beams and axis under pressure and compares these with a safe torsion.
The student chooses the appropriate profile based on a case with regard to bending with the help of schedules.
The student choses a material based on the occuring tensions in a simple construction.
The student calculates the influence of the temperature on material tension.

Educational organisation (list)

Avondtraject
Dagtraject
Estimated time for testing2,00 hours
Lectures and / or tutorials21,00 hours
Lectures and / or tutorials24,00 hours
Practicum10,50 hours
Work time outside of contact hours145,50 hours
Work time outside of contact hours148,50 hours

Evaluation (list)

Evaluation(s) for first exam chance
MomentForm%Remark
Academic yearContinuous skills assessment hands off (Permanent evaluation)20,00tussentijdse evaluatie. Dit examen is herneembaar in de examenreeks van module 2.
Academic yearContinuous test assessment (Permanent evaluation)10,00tussentijdse evaluatie. Dit examen is herneembaar in de examenreeks van module 2.
Academic yearKnowledge test10,00
Academic yearSkills assessment hands off60,00
Evaluation(s) for re-sit exam
MomentForm%Remark
2nd examination periodKnowledge test20,00
2nd examination periodSkills assessment hands off80,00