04:29

How to Perform Simple Linear Regression on a Calculator Made with Clipchamp

19:49

Lecture 11-3: Fatigue and Stress Concentration - Example | Structural Mechanics

29:52

Lecture 11-2: Fatigue | Structural Mechanics

15:27

Lecture 11-1: Stress Concentration | Structural Mechanics

26:06

Lecture 10-6: Vibration of L-shaped Beam | Structural Mechanics 2024 OL Spring

15:45

Lecture 10-5: Force Transmissibility in Single Degree of Freedom (SDOF) System| Structural Mechanics

24:30

Lecture 10-4: Effective Mass of Beams | Structural Mechanics

17:21

Lecture 10-3: Effective Stiffness of Beams | Structural Mechanics

24:33

Lecture 10-2: Forced Vibration of a Single Degree of Freedom (SDOF) System | Structural Mechanics

35:35

Lecture 10-1: Free Vibration of a Single Degree of Freedom System | Dynamics | Structural Mechanics

24:05

Lecture 9-6: Castigliano's Method - Complex Beam Example | Structural Mechanics

13:43

Lecture 9-5: Castigliano's Method - Simply Supported Beam Example | Structural Mechanics

23:12

Lecture 9-4: Castigliano's Method - Examples | Structural Mechanics

10:40

Lecture 9-2: Energy Methods Example | Structural Mechanics

19:44

Lecture 9-3: Castigliano's Theorem | Structural Mechanics

33:10

Lecture 9-1: Energy Methods | Structural Mechanics

30:26

Lecture 8-2: Analysis of Structures Using Yield Criteria - Example | Structural Mechanics

21:22

Lecture 8-1: Analysis of Structures Using Failure Criteria | Structural Mechanics

15:58

Lecture 7-3: Von Mises Criteria for Yielding of Ductile Materials | Structural Mechanics

15:58

Lecture 7-2: Tresca Criteria for Yielding of Ductile Materials | Structural Mechanics

19:39

Lecture 7-1: Failure of Brittle Materials - Failure Theories | Structural Mechanics

10:46

Lecture 6-4: Plane Strain - Example | Structural Mechanics

13:36

Lecture 6-3: Plane Stress - Example | Structural Mechanics

24:40

Lecture 6-2: Classification of Stress States | Structural Mechanics

11:09

Lecture 6-1: Generalized Hooke's Law | Structural Mechanics

17:22

Lecture 5-2: Strain Rosettes | Structural Mechanics

25:46

Lecture 5-1: Strain Tensor | Structural Mechanics

09:55

Lecture 4-4: Octahedral Stress | Structural Mechanics

16:54

Lecture 4-3: Principal stresses and directions in 3D Example | Structural Mechanics

19:08

Lecture 4-2: Three-Dimensional (3D) Stress Transformation Part 2 | Structural Mechanics

10:17

Lecture 4-1: Three-Dimensional (3D) Stress Transformations Part 1 | Structural Mechanics

13:49

Lecture 3-7: Eigenvalue Approach for 2D Principal Stresses - Examples | Structural Mechanics

17:37

Lecture 3-6: Principal stresses in 2D using Eigenvalue Problem Approach | Structural Mechanics

30:15

Lecture 3-5: Two-Dimensional (2D) Stress Transformation Examples | Structural Mechanics

21:47

Lecture 3-4: Two-Dimensional (2D) Stress Transformation Part 2 | Structural Mechanics

19:38

Lecture 3-3: Two-Dimensional (2D) Stress Transformation Part 1 | Structural Mechanics

10:39

Lecture 3-2: Motivation for Stress Transformations | Structural Mechanics

35:19

Lecture 3-1: General state of stress | Structural Mechanics

35:01

Lecture 2-4: Combined loading of a circular shaft - Example 2

24:56

Lecture 2-3: Combined loading of a circular shaft - Example 1 - Part 2

31:17

Lecture 2-2: Combined loading of a circular shaft - Example 1

07:17

Lecture 9-6 | Numerical Methods for PDEs in 2+D | Advanced Mathematical Methods for Engineers

12:08

Lecture 9-5 | Accuracy of Numerical PDE Solutions | Advanced Mathematical Methods for Engineers

21:35

Lecture 9-4 | Coding Numerical Methods for PDEs | Advanced Mathematical Methods for Engineers

50:34

Lecture 9-3 | Numerical Methods | Advanced Mathematical Methods for Engineers

13:45

Lecture 9-2 | Analytical Solutions PDEs | Advanced Mathematical Methods for Engineers

03:22

Lecture 9-1 | Overview of Partial Differential Equations | Advanced Mathematical Methods

15:52

Lecture 8-14 | Stiff ODEs |Advanced Mathematical Methods for Engineers

13:14

Lecture 8-13 | Numerical Solutions of Higher Order ODEs |Advanced Mathematical Methods for Engineers

24:28

Lecture 8-12 | Numerical Solutions of Systems of ODEs | Advanced Mathematical Methods for Engineers

21:11

Lecture 8-11 | Accuracy of Numerical Solutions of ODEs | Advanced Mathematical Methods for Engineers

25:16

Lecture 8-10 | Runge-Kutta Methods| Advanced Mathematical Methods for Engineers

11:07

Lecture 8-9 | Errors | Advanced Mathematical Methods for Engineers

13:43

Lecture 8-8 | Midpoint Euler Method | Advanced Mathematical Methods for Engineers

17:01

Lecture 8-7 | Modified Euler Method | Advanced Mathematical Methods for Engineers

08:00

Lecture 8-6 | Stability | Advanced Mathematical Methods for Engineers

19:30

Lecture 8-5 | Euler's Implicit Method | Advanced Mathematical Methods for Engineers

14:56

Lecture 8-4 | Euler's Explicit Method | Advanced Mathematical Methods for Engineers

09:19

Lecture 8-3 | Numerical Solutions of ODEs | Advanced Mathematical Methods for Engineers

23:39

Lecture 8-2 | Analytical Solutions of ODEs | Advanced Mathematical Methods for Engineers