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Introduction to Moment of Inertia

Lesson 1 of 40 • 48 upvotes • 6:09 mins

Ayush P Gupta

This video gives an introduction to moment of inertia.

Rotational Mechanics For IIT JEE

40 lessons • 5 h 31 m

1

Introduction to Moment of Inertia

6:09 mins

2

Moment of Inertia of Rigid Bodies

9:35 mins

3

Moment of Inertia of Uniform Solid Cylinder

7:30 mins

4

Moment of Inertia of Uniform Rigid Rod

6:22 mins

5

Parallel Axis Theorem

8:29 mins

6

Perpendicular Axes Theorem

8:29 mins

7

Torque : Part 1

8:41 mins

8

Torque : Part 2

8:32 mins

9

Basic Recap: Angular Variables

9:09 mins

10

Angular Momentum

11:43 mins

11

Relation between Torque and Angular Momentum, Conservation of Angular Momentum

10:10 mins

12

Rolling Motion

11:04 mins

13

Types of Rolling

11:03 mins

14

Rolling Disc on Conveyor Belt

10:27 mins

15

Accelerated Rolling Motion

11:58 mins

16

Rolling on Inclined Surface

9:16 mins

17

Torque and Angular Acceleration

6:40 mins

18

Kinetic Energy in Rotation

7:08 mins

19

Quality Numerical 001

9:44 mins

20

Quality Numerical 002 : Conservation of Angular Momentum

5:20 mins

21

Quality Numerical 003 : Angular Momentum

6:53 mins

22

Quality Numerical 004 : Accelerated Pure Rolling

7:33 mins

23

Quality Numerical 005 : Accelerated Pure Rolling

5:30 mins

24

Quality Numerical 006 : Rotational Kinetic Energy

8:20 mins

25

Quality Numerical 007 : Backward Slipping

8:59 mins

26

Quality Numerical 008 : Pure Accelerated Rolling

6:28 mins

27

Quality Numerical 009 : Pure Accelerated Rolling

11:14 mins

28

Quality Numerical 010 : Linear and Angular Acceleration

5:47 mins

29

Quality Numerical 011 : Pure Accelerated Rolling and Forward Slipping

5:42 mins

30

Quality Numerical 013 : Linear and Angular Acceleration

4:28 mins

31

Quality Numerical 012 : Friction and Pure Rolling

4:14 mins

32

Quality Numerical 014 : Most Important Numerical

9:29 mins

33

Quality Numerical 015: Moment Of Inertia of a Body having Cavity

8:34 mins

34

Quality Numerical 016 : Pure Rolling

9:23 mins

35

Quality Numerical 017 : Sliding Disc

10:43 mins

36

Quality Numerical 018 : Pure Rolling

5:37 mins

37

Quality Numerical 019 : Suspended Rod

8:29 mins

38

Quality Numerical 020 : Torque by Friction

4:44 mins

39

Quality Numerical 021 : Freely Falling Rod

11:38 mins

40

Quality Numerical 002: Angular Momentum

10:10 mins