1. The basic terms of static, the force, the force operations.
2. The force system, its classification. The force system with common and general point of application, plane (2D) and space (3D).
3. The equivalent substitution of the force system - the resulting force. The force and moment effect.
4. The force system equilibrium, the equations of equilibrium, force and moment equations.
5. The centre of gravity of the mass objects - lines, areas and bodies.
6. The force acting on the bodies, the body support (constraint) in joints. the types of planar (2D) and space (3D) joints.
7. The free body diagram constructing - one of the basic approaches in mechanics. The reaction solution in supports.
8. The beam, the beam loading, the reaction solution. The internal forces of the beam.
9. The planar frame structures, loading, reaction solution, internal forces.
10. The body system. The body link by constraints. The loading, the reaction solution, the constraint forces solution.
11. The bar as the specific type of body. The joints, loading, the axial force.
12. The bar system, the axial forces solution. The nodal joint method, the cutting method.
13. The passive resistance against motion.
14. The practical applications.
2. The force system, its classification. The force system with common and general point of application, plane (2D) and space (3D).
3. The equivalent substitution of the force system - the resulting force. The force and moment effect.
4. The force system equilibrium, the equations of equilibrium, force and moment equations.
5. The centre of gravity of the mass objects - lines, areas and bodies.
6. The force acting on the bodies, the body support (constraint) in joints. the types of planar (2D) and space (3D) joints.
7. The free body diagram constructing - one of the basic approaches in mechanics. The reaction solution in supports.
8. The beam, the beam loading, the reaction solution. The internal forces of the beam.
9. The planar frame structures, loading, reaction solution, internal forces.
10. The body system. The body link by constraints. The loading, the reaction solution, the constraint forces solution.
11. The bar as the specific type of body. The joints, loading, the axial force.
12. The bar system, the axial forces solution. The nodal joint method, the cutting method.
13. The passive resistance against motion.
14. The practical applications.