1. Introduction. Principles of slope-deflection method.
2. Analysis of beam (stiffness matrix, loads vector, displacements vector). Local and global coordinate systems. Transformations.
3. Analysis of frame. Global stiffness matrix. Global loads and displacements vectors.
4. Algorithmisation of slope-deflection method.
5. Simple cases of frames loaded by forces.
6. Complex frames.
7. Direct displacement loads on frames.
8. Arcs and curved frames.
9. Analysis of truss girders.
10. Grids and spatial frames.
11. Non-linear analysis of frames.
12. Special aplications of slope-deflection method.
13. Simplified slope-deflection method.
14. Comparison of methods for analysis of frames.
2. Analysis of beam (stiffness matrix, loads vector, displacements vector). Local and global coordinate systems. Transformations.
3. Analysis of frame. Global stiffness matrix. Global loads and displacements vectors.
4. Algorithmisation of slope-deflection method.
5. Simple cases of frames loaded by forces.
6. Complex frames.
7. Direct displacement loads on frames.
8. Arcs and curved frames.
9. Analysis of truss girders.
10. Grids and spatial frames.
11. Non-linear analysis of frames.
12. Special aplications of slope-deflection method.
13. Simplified slope-deflection method.
14. Comparison of methods for analysis of frames.