1. Internal forces of continuous beams with embedded joints and frame structures.
2. Strain of the frame element, reciprocal work theorem, principle of the unit forces method.
3. Calculation of displacement and rotation of statically determinate beams and frames, using tables.
4. Calculation of displacement for a statically determinate truss structure. Influence of
uniform heating of the structure. Notes on statically indeterminate tasks.
5. Origin and principles of FEM. Approximation functions for strain-stress element, derivation of a stiffness matrix. Shape function.
6. Stiffness matrix of a bending element, vector of an equivalent nodal load.
Creating stiffness matrix and vector of loads for the entire structure. Basic
static FEM equation.
7. Hierarchy of planar and spatial elements. Optimization of the width of the band, storage of matrices in computers' memory.
8. Mass matrix of tension-compression and bending. Calculation of natural frequencies. Properties of modal shapes of vibration.
9. Methods for natural frequencies calculation. Linear system response to a continuous excitation function by means of modal shapes expansion.
10. Buckling of structures. Using FEM to calculate the critical forces.
11. Matrix of 'geometrical' stiffness. Notes on non-linear calculations of buckling.
12. Methods of calculations of steel structures according to CSN 73 1401.
13. Rozbor CSN 73 0035 - Reliability and actions on structures.
.
2. Strain of the frame element, reciprocal work theorem, principle of the unit forces method.
3. Calculation of displacement and rotation of statically determinate beams and frames, using tables.
4. Calculation of displacement for a statically determinate truss structure. Influence of
uniform heating of the structure. Notes on statically indeterminate tasks.
5. Origin and principles of FEM. Approximation functions for strain-stress element, derivation of a stiffness matrix. Shape function.
6. Stiffness matrix of a bending element, vector of an equivalent nodal load.
Creating stiffness matrix and vector of loads for the entire structure. Basic
static FEM equation.
7. Hierarchy of planar and spatial elements. Optimization of the width of the band, storage of matrices in computers' memory.
8. Mass matrix of tension-compression and bending. Calculation of natural frequencies. Properties of modal shapes of vibration.
9. Methods for natural frequencies calculation. Linear system response to a continuous excitation function by means of modal shapes expansion.
10. Buckling of structures. Using FEM to calculate the critical forces.
11. Matrix of 'geometrical' stiffness. Notes on non-linear calculations of buckling.
12. Methods of calculations of steel structures according to CSN 73 1401.
13. Rozbor CSN 73 0035 - Reliability and actions on structures.
.