Study Guide

Objective

Upon completion of the course, students will be competent in:
- creating free body diagrams of a particle and a rigid body, forming equations of equilibrium from them and solving unknown support reactions.
- calculating the normal forces, shear forces, bending moments and torsional moments of a beam and making corresponding loading diagrams.
- calculating the co-ordinates of the centre of gravity equilibrium point of a body.
- calculating the bar forces of plane trusses and the forces and momentums concentrated on beam structures.
- observing the impacts of friction on static structures.

Content

- Basic laws of mechanics
- Combining forces
- Momentum of force
- Supports
- Centre of gravity
- Equilibrium of a particle and a rigid body
- Stress and depictions of stress in beams
- Statics of structures
- Friction
- Working virtually
- Machines in mechanics

Teaching methods

Lectures and exercises

Student workload

Total work load of the course: 80 h
- of which scheduled studies: 35 h
- of which autonomous studies: 45 h

Further information

Grades 1 - 5

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

A satisfactory grade is reached by solving at least two problems of the five given at the examination.

Assessment criteria, good (3)

A good grade is reached by solving at least three problems of the five given at the examination.

Assessment criteria, excellent (5)

An excellent grade is reached by solving a challening last problem at the examination and solving other problems correctly.

Assessment methods and criteria

Final exam

Qualifications

Vectors and matrices

Objective

Upon completion of the course, students will be competent in:
- creating free body diagrams of a particle and a rigid body, forming equations of equilibrium from them and solving unknown support reactions.
- calculating the normal forces, shear forces, bending moments and torsional moments of a beam and making corresponding loading diagrams.
- calculating the co-ordinates of the centre of gravity equilibrium point of a body.
- calculating the bar forces of plane trusses and the forces and momentums concentrated on beam structures.
- observing the impacts of friction on static structures.

Content

- Basic laws of mechanics
- Combining forces
- Momentum of force
- Supports
- Centre of gravity
- Equilibrium of a particle and a rigid body
- Stress and depictions of stress in beams
- Statics of structures
- Friction
- Working virtually
- Machines in mechanics

Teaching methods

Lectures and exercises

Student workload

Total work load of the course: 80 h
- of which scheduled studies: 28 h
- of which autonomous studies: 52 h

Further information

Grades 1 - 5

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

A satisfactory grade is reached by solving at least two problems of the five given at the examination.

Assessment criteria, good (3)

A good grade is reached by solving at least three problems of the five given at the examination.

Assessment criteria, excellent (5)

An excellent grade is reached by solving a challening last problem at the examination and solving other problems correctly.

Assessment methods and criteria

Final exam

Qualifications

Vectors and matrices

Objective

Upon completion of the course, students will be competent in:
- creating free body diagrams of a particle and a rigid body, forming equations of equilibrium from them and solving unknown support reactions.
- calculating the normal forces, shear forces, bending moments and torsional moments of a beam and making corresponding loading diagrams.
- calculating the co-ordinates of the centre of gravity equilibrium point of a body.
- calculating the bar forces of plane trusses and the forces and momentums concentrated on beam structures.
- observing the impacts of friction on static structures.

Content

- Basic laws of mechanics
- Combining forces
- Momentum of force
- Supports
- Centre of gravity
- Equilibrium of a particle and a rigid body
- Stress and depictions of stress in beams
- Statics of structures
- Friction
- Working virtually
- Machines in mechanics

Teaching methods

Lectures and exercises

Student workload

Total work load of the course: 80 h
- of which scheduled studies: 25 h
- of which autonomous studies: 55 h

Further information

Grades 1 - 5

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

A satisfactory grade is reached by solving at least two problems of the five given at the examination.

Assessment criteria, good (3)

A good grade is reached by solving at least three problems of the five given at the examination.

Assessment criteria, excellent (5)

An excellent grade is reached by solving a challening last problem at the examination and solving other problems correctly.

Assessment methods and criteria

Final exam

Qualifications

Vectors and matrices

Objective

Upon completion of the course, students will be competent in:
- creating free body diagrams of a particle and a rigid body, forming equations of equilibrium from them and solving unknown support reactions.
- calculating the normal forces, shear forces, bending moments and torsional moments of a beam and making corresponding loading diagrams.
- calculating the co-ordinates of the centre of gravity equilibrium point of a body.
- calculating the bar forces of plane trusses and the forces and momentums concentrated on beam structures.
- observing the impacts of friction on static structures.

Content

- Basic laws of mechanics
- Combining forces
- Momentum of force
- Supports
- Centre of gravity
- Equilibrium of a particle and a rigid body
- Stress and depictions of stress in beams
- Statics of structures
- Friction
- Working virtually
- Machines in mechanics

Teaching methods

Lectures and exercises

Student workload

Total work load of the course: 80 h
- of which scheduled studies: 28 h
- of which autonomous studies: 52 h

Further information

Grades 1 - 5

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

A satisfactory grade is reached by solving at least two problems of the five given at the examination.

Assessment criteria, good (3)

A good grade is reached by solving at least three problems of the five given at the examination.

Assessment criteria, excellent (5)

An excellent grade is reached by solving a challening last problem at the examination and solving other problems correctly.

Assessment methods and criteria

Final exam

Qualifications

Vectors and matrices

Objective

Upon completion of the course, students will be competent in:
- creating free body diagrams of a particle and a rigid body, forming equations of equilibrium from them and solving unknown support reactions.
- calculating the normal forces, shear forces, bending moments and torsional moments of a beam and making corresponding loading diagrams.
- calculating the co-ordinates of the centre of gravity equilibrium point of a body.
- calculating the bar forces of plane trusses and the forces and momentums concentrated on beam structures.
- observing the impacts of friction on static structures.

Content

- Basic laws of mechanics
- Combining forces
- Momentum of force
- Supports
- Centre of gravity
- Equilibrium of a particle and a rigid body
- Stress and depictions of stress in beams
- Statics of structures
- Friction
- Working virtually
- Machines in mechanics

Teaching methods

Lectures and exercises

Student workload

Total work load of the course: 80 h
- of which scheduled studies: 35 h
- of which autonomous studies: 45 h

Further information

Grades 1 - 5

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

A satisfactory grade is reached by solving at least two problems of the five given at the examination.

Assessment criteria, good (3)

A good grade is reached by solving at least three problems of the five given at the examination.

Assessment criteria, excellent (5)

An excellent grade is reached by solving a challening last problem at the examination and solving other problems correctly.

Assessment methods and criteria

Final exam

Qualifications

Vectors and matrices

Objective

Upon completion of the course, students will be competent in:
- creating free body diagrams of a particle and a rigid body, forming equations of equilibrium from them and solving unknown support reactions.
- calculating the normal forces, shear forces, bending moments and torsional moments of a beam and making corresponding loading diagrams.
- calculating the co-ordinates of the centre of gravity equilibrium point of a body.
- calculating the bar forces of plane trusses and the forces and momentums concentrated on beam structures.
- observing the impacts of friction on static structures.

Content

- Basic laws of mechanics
- Combining forces
- Momentum of force
- Supports
- Centre of gravity
- Equilibrium of a particle and a rigid body
- Stress and depictions of stress in beams
- Statics of structures
- Friction
- Working virtually
- Machines in mechanics

Teaching methods

Lectures and exercises

Student workload

Total work load of the course: 80 h
- of which scheduled studies: 25 h
- of which autonomous studies: 55 h

Further information

Grades 1 - 5

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

A satisfactory grade is reached by solving at least two problems of the five given at the examination.

Assessment criteria, good (3)

A good grade is reached by solving at least three problems of the five given at the examination.

Assessment criteria, excellent (5)

An excellent grade is reached by solving a challening last problem at the examination and solving other problems correctly.

Assessment methods and criteria

Final exam

Qualifications

Vectors and matrices

Objective

Upon completion of the course, students will be competent in:
- creating free body diagrams of a particle and a rigid body, forming equations of equilibrium from them and solving unknown support reactions.
- calculating the normal forces, shear forces, bending moments and torsional moments of a beam and making corresponding loading diagrams.
- calculating the co-ordinates of the centre of gravity equilibrium point of a body.
- calculating the bar forces of plane trusses and the forces and momentums concentrated on beam structures.
- observing the impacts of friction on static structures.

Content

- Basic laws of mechanics
- Combining forces
- Momentum of force
- Supports
- Centre of gravity
- Equilibrium of a particle and a rigid body
- Stress and depictions of stress in beams
- Statics of structures
- Friction
- Working virtually
- Machines in mechanics

Teaching methods

Lectures and exercises

Student workload

Total work load of the course: 80 h
- of which scheduled studies: 32 h
- of which autonomous studies: 48 h

Further information

Grades 1 - 5

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

A satisfactory grade is reached by solving at least two problems of the five given at the examination.

Assessment criteria, good (3)

A good grade is reached by solving at least three problems of the five given at the examination.

Assessment criteria, excellent (5)

An excellent grade is reached by solving a challening last problem at the examination and solving other problems correctly.

Assessment methods and criteria

Final exam

Qualifications

Vectors and matrices

Objective

Upon completion of the course, students will be competent in:
- creating free body diagrams of a particle and a rigid body, forming equations of equilibrium from them and solving unknown support reactions.
- calculating the normal forces, shear forces, bending moments and torsional moments of a beam and making corresponding loading diagrams.
- calculating the co-ordinates of the centre of gravity equilibrium point of a body.
- calculating the bar forces of plane trusses and the forces and momentums concentrated on beam structures.
- observing the impacts of friction on static structures.

Content

- Basic laws of mechanics
- Combining forces
- Momentum of force
- Supports
- Centre of gravity
- Equilibrium of a particle and a rigid body
- Stress and depictions of stress in beams
- Statics of structures
- Friction
- Working virtually
- Machines in mechanics

Teaching methods

Lectures and exercises

Student workload

Total work load of the course: 80 h
- of which scheduled studies: 32 h
- of which autonomous studies: 48 h

Further information

Grades 1 - 5

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

A satisfactory grade is reached by solving at least two problems of the five given at the examination.

Assessment criteria, good (3)

A good grade is reached by solving at least three problems of the five given at the examination.

Assessment criteria, excellent (5)

An excellent grade is reached by solving a challening last problem at the examination and solving other problems correctly.

Assessment methods and criteria

Final exam

Qualifications

Vectors and matrices

Objective

Upon completion of the course, students will be competent in:
- creating free body diagrams of a particle and a rigid body, forming equations of equilibrium from them and solving unknown support reactions.
- calculating the normal forces, shear forces, bending moments and torsional moments of a beam and making corresponding loading diagrams.
- calculating the co-ordinates of the centre of gravity equilibrium point of a body.
- calculating the bar forces of plane trusses and the forces and momentums concentrated on beam structures.
- observing the impacts of friction on static structures.

Content

- Basic laws of mechanics
- Combining forces
- Momentum of force
- Supports
- Centre of gravity
- Equilibrium of a particle and a rigid body
- Stress and depictions of stress in beams
- Statics of structures
- Friction
- Working virtually
- Machines in mechanics

Materials

material in the moodle

Teaching methods

Lectures and exercises

Student workload

Total work load of the course: 81 h
- of which scheduled studies: 22 h
- of which autonomous studies: 59 h

Further information

Grades 1 - 5

Evaluation scale

1-5

Assessment criteria, satisfactory (1)

A satisfactory grade is reached by solving at least two problems of the five given at the examination.

Assessment criteria, good (3)

A good grade is reached by solving at least three problems of the five given at the examination.

Assessment criteria, excellent (5)

An excellent grade is reached by solving a challening last problem at the examination and solving other problems correctly.

Assessment methods and criteria

Final exam

Qualifications

Vectors and matrices