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## Introduction to Finite Element Method

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1. Lesson 0: General Instructions
2. ### Module 1: Introduction

Lesson1: Introduction to FEM
1 Quiz
3. Lesson 2: Direct Stiffness Method
2 Topics
4. Lesson 3: Direct Stiffness Method-Additional Examples
5. Lesson 4: Using for Loop
6. Module 2: FEM for a scalar field problem in 1D
Lesson 5: FEM for 1D scalar field problems
7. Lesson 6: Galerkin Method
8. Lesson 7: Finite Element Method
9. Lesson 8: 1D 2-noded Finite Element method
10. Lesson 9: Example Problem and Matlab Code
11. Lesson 10: Formulation for Neumann Boundary Conditions
12. Module 3: FEM for a scalar field problem in 2D
Lesson11: Governing equations
13. Lesson 12: Weak Form
14. Lesson 13: Discretisation and derivation of matrices and vectors
15. Lesson 14: 3-Noded triangular element
1 Topic
16. Lesson 15: Generic code for 2D scalar field problems
17. Lesson 16: Stiffness matrix for 3D scalar field problems
18. Module 4: Mapping and Numerical integration
Lesson 17: Numerical integration in 1D
19. Lesson 18: 1D Element using Numerical integration
1 Topic
20. Lesson 19: Numerical integration for triangles
21. Lesson 20: 3-noded triangular element with quadrature
1 Topic
22. Lesson 21: 4-node quadrilateral element
23. Lesson 22: Higher-order and 3D elements
24. Module 5: FEM for linear elasticity
Lesson 23: Plane elasticity and governing equations
1 Quiz
25. Lesson 24: Weak form for plane elasticity
26. Lesson 25: 3-noded triangular element - Derivation
27. Lesson 26: 3-noded triangular element â€“ Examples
1 Topic
28. Lesson 27: Generic code for plane elasticity
29. Lesson 28: 4-noded quadrilateral element
30. Lesson 29: Convergence studies
31. Module 6: FEM for structural mechanics problems
Lesson 30: Euler-Bernoulli beam element â€“ theory
1 Quiz
32. Lesson 31: Euler-Bernoulli beam element â€“ examples
33. Lesson 32: Timoshenko-Ehrenfest beam element
34. Lesson 33: Shear locking and its remedies
35. Lesson 34: Frame, plate and shell elements
1 Quiz
36. Module 7: Transient problems
Lesson 35: Introduction to transient problems
1 Quiz
37. Lesson 36: Time integration schemes for 1st order problems
38. Lesson 37: Transient heat conduction using FEM
39. Lesson 38: Time integration schemes for 2nd-order problems
40. Lesson 39: Dynamics of beams with FEM
41. Module 8: ANSYS Tutorials
Lesson 40: Introduction to ANSYS software
42. Lesson 41: Steady thermal analysis
43. Lesson 42: Static structural analysis
44. Lesson 43: Transient structural using Workbench
45. Certificate

Lesson 46 of 45
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# Lesson 4: Direct Stiffness Method-Part3

In this lesson, you will learn about Direct Stiffness Method

Clear your doubts and engage in discussions

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