LV EN RU DE FR

Applied Mechanics

Course developer

Course abstract

Students will acquire knowledge on durability, stiffness and stability of materials for calculation of constructions a, develop engineering perception, supporting on the theory they study to put into practice the substantiation of optimal structural design of constructions of food production machinery.

Learning outcomes and their assessment

Knowledge - students comprehend the basic principles of engineering calculation on strength, stability and deformation of materials and constructions – interactive tests and two tests.
Skills - using the methods and modes of the strength of materials students are able to perform practical calculations on strength, stability and deformation of engineering constructions – practical works.
Competence - students are able to solve technical problems and perform independent calculation and selection of appropriate machinery for food processing – 3 homeworks.

Course Content(Calendar)

1. Introduction. Equivalent and balanced systems of forces. Supports and reactions. Interactive test. (Lectures – 4h, practical work – 4h)
2. Geometric parameters of cross section. (Lectures – 2h, practice – 2h)
3. Method of cross section. Diagrams of internal forces. (Lectures – 2h, practical work – 2h)
4. Stresses. Tension, Diagram of stress-strain for plastic and brittle materials. Interactive test. (Lectures – 4h, practical work – 4h)
5. Surface load. Permissible stress. (Lectures – 2h, practical work – 2h)
6. Stresses in tension. 1st test. (Lectures – 2h, practical work– 2h)
7. Shearing load. (Lectures – 2h, practical work – 2h)
8. Torsion load. Torsion in round bars. (Lectures – 4h, practical work – 4h)
9. Bending load. Normal stress in bending. Interactive test. (Lectures – 2h, practical work – 2h,)
10. Tangential stress in bending. Calculation of strength. 2nd test. (Lectures – 4h, practical work – 4h)
11. Theories of strength. (Lectures – 4h, practical work – 4h)

Requirements for awarding credit points

Course assessment with a grade is formed follows:
• all homework must be submitted. The homeworks include mechanical load and strength problem solving (40%)
• all interactive tests must be submitted. The tests include multichoice, numerical, interaction via text and figures in the environments of Moodle and Kahoot. Grading in Moodle is automated(20%)
• two classroom tests must be written (40%).

Description of the organization and tasks of students’ independent work

The problems for independent work are similar to the ones given during practice work. The problem starts with statement of initial parameters. To solve the problem, application of the skills obtained during practice is necessary.

Criteria for Evaluating Learning Outcomes

The test with a grade is formed as the weighted mean of the results of interactive tests, homeworks, and classroom tests.

Compulsory reading

Meriam J.L., Kraige L.G. Engineering Mechanics. Statics. New York: John Wiley & Sons, 2001. 512 p.
Meriam J.L., Kraige L.G. Engineering Mechanics. Dynamics. New York: John Wiley & Sons, 2003. 744 p.

Further reading

Hibbeler R.C. Statics and mechanics of materials. Singapore: Prentice Hall, 2004. 792 p.

Notes

Compulsory course for students of the second-level professional higher education study program "Wood processing "