Beam & Frame Analysis using the Direct Stiffness Method in Python
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Learn more
Welcome and Setup
1. Introduction and course overview
2. Our approach to Python
3. Getting started with Jupyter Notebooks
Support and Lecture Q&A (Please read!)
The Beam Element Stiffness Matrix
4. Section overview
5. Finite element equations - quick review
6. Stiffness matrix for a beam element - part 1
7. Stiffness matrix for a beam element - part 2
8. Transforming from local to global coordinates
Beam/Frame Analysis Step-by-Step
9. Section overview
9.1 Section 3 - Direct Stiffness Method Step by Step - Slides
10. Analysis procedure overview
11. Calculating element stiffness matrices
12. Building the primary stiffness matrix
13. Reducing to the structure stiffness matrix
14. Solving for unknown displacements
15. Solving for reactions
16. Finding axial forces, shears and moments
Implementing Beam/Frame Analysis in Python
17. Section overview
17.1 Jupyter Notebook (zip)
18. Element stiffness matrices
19. Whole structure stiffness matrix
20. Solving for displacements and reactions
21. Evaluating bending moments and shear forces
22. Visualising displacements
Mid-course check-in
Generalising our Code
23. Section overview
23.1 Jupyter Notebook (zip)
24. Element stiffness matrices
25. The structure stiffness matrix
26. Solving for displacements and reactions
27. Solving for axial forces, moments and shears
28. Graphical and text output
Building Better Visualisations
29. Section overview
29.1 Jupyter Notebook (zip)
30. Adding nodal annotations to deflection
31. Plotting an axial force diagram
32. Planning the bending moment diagram
33. Building the bending moment diagram
34. Building the shear force diagram
34.1 Jupyter Notebook (zip)
35. Adding UI widgets for plot adjustments
35.1 Jupyter Notebook (zip)
36. Label and widget refactor
Pins, Inter-Nodal Loading and Flexible Supports
37. Section overview
37.1 Section 7 - Pinned Beam Elements - Slides
38. Beam elements pinned at one end
38.1 Jupyter Notebook (zip)
39. Capturing pin locations
40. Pinned stiffness matrices
41. Pinned structure stiffness matrix
42. Solving for pinned member actions
43. Dealing with inter-nodal loading
43.1 Jupyter Notebook (zip)
44. Recording inter-nodal loading
45. Removing Equivalent Nodal Actions
46. Inter-nodal loading with pins
46.1 Jupyter Notebook (zip)
47. Flexible supports
Test Questions
48. Section overview
49. Installing Nbextensions (optional)
50. Test Question #1
50.1 Jupyter Notebooks (zip)
51. Test Question #2
51.1 Jupyter Notebooks (zip)
52. Test Question #3
52.1 Jupyter Notebooks (zip)
53. Test Question #4
53.1 Jupyter Notebooks (zip)
54. Test Question #5
54.1 Jupyter Notebooks (zip)
55. Course wrap up and Certificate of Completion
Course Updates
56. Combining beam and axially loaded bar elements
57. Varying element cross-sectional areas
57.1 Jupyter Notebooks (zip)
Products
Course
Section
Lesson
42. Solving for pinned member actions
42. Solving for pinned member actions
Beam & Frame Analysis using the Direct Stiffness Method in Python
Buy now
Learn more
Welcome and Setup
1. Introduction and course overview
2. Our approach to Python
3. Getting started with Jupyter Notebooks
Support and Lecture Q&A (Please read!)
The Beam Element Stiffness Matrix
4. Section overview
5. Finite element equations - quick review
6. Stiffness matrix for a beam element - part 1
7. Stiffness matrix for a beam element - part 2
8. Transforming from local to global coordinates
Beam/Frame Analysis Step-by-Step
9. Section overview
9.1 Section 3 - Direct Stiffness Method Step by Step - Slides
10. Analysis procedure overview
11. Calculating element stiffness matrices
12. Building the primary stiffness matrix
13. Reducing to the structure stiffness matrix
14. Solving for unknown displacements
15. Solving for reactions
16. Finding axial forces, shears and moments
Implementing Beam/Frame Analysis in Python
17. Section overview
17.1 Jupyter Notebook (zip)
18. Element stiffness matrices
19. Whole structure stiffness matrix
20. Solving for displacements and reactions
21. Evaluating bending moments and shear forces
22. Visualising displacements
Mid-course check-in
Generalising our Code
23. Section overview
23.1 Jupyter Notebook (zip)
24. Element stiffness matrices
25. The structure stiffness matrix
26. Solving for displacements and reactions
27. Solving for axial forces, moments and shears
28. Graphical and text output
Building Better Visualisations
29. Section overview
29.1 Jupyter Notebook (zip)
30. Adding nodal annotations to deflection
31. Plotting an axial force diagram
32. Planning the bending moment diagram
33. Building the bending moment diagram
34. Building the shear force diagram
34.1 Jupyter Notebook (zip)
35. Adding UI widgets for plot adjustments
35.1 Jupyter Notebook (zip)
36. Label and widget refactor
Pins, Inter-Nodal Loading and Flexible Supports
37. Section overview
37.1 Section 7 - Pinned Beam Elements - Slides
38. Beam elements pinned at one end
38.1 Jupyter Notebook (zip)
39. Capturing pin locations
40. Pinned stiffness matrices
41. Pinned structure stiffness matrix
42. Solving for pinned member actions
43. Dealing with inter-nodal loading
43.1 Jupyter Notebook (zip)
44. Recording inter-nodal loading
45. Removing Equivalent Nodal Actions
46. Inter-nodal loading with pins
46.1 Jupyter Notebook (zip)
47. Flexible supports
Test Questions
48. Section overview
49. Installing Nbextensions (optional)
50. Test Question #1
50.1 Jupyter Notebooks (zip)
51. Test Question #2
51.1 Jupyter Notebooks (zip)
52. Test Question #3
52.1 Jupyter Notebooks (zip)
53. Test Question #4
53.1 Jupyter Notebooks (zip)
54. Test Question #5
54.1 Jupyter Notebooks (zip)
55. Course wrap up and Certificate of Completion
Course Updates
56. Combining beam and axially loaded bar elements
57. Varying element cross-sectional areas
57.1 Jupyter Notebooks (zip)
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