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DD.2.7 Change in the Kinetic Energy
3:53
9
0.4 Vectors - Magnitude and Direction
0:40
289
23.1 Introduction to Potential Energy
9:51
87
10.2 Angular Acceleration
6:21
38
22.2 Path Dependence - Friction
5:17
37
13.1 Rope Hanging Between Trees
3:36
48
4.4 Non-inertial Reference Frames
4:38
76
1.4 Average Velocity in 1D
2:18
192
7.1 Pushing Pulling and Tension
4:17
54
22.4 Non-conservative Forces
1:44
49
26.1 Momentum in Collisions
4:12
27
26.2 Kinetic Energy in Collisions
5:14
39
PS.6.2 Snowplow Problem
8:11
61
12.5 Worked Example: 2 Blocks and 2 Pulleys
8:41
36
PS.3.1 Worked Example - Orbital Circular Motion - Period
1:40
26
DD.1.1 Friction at the Nanoscale
39:12
123
21.6 Worked Example: Block Going Down a Ramp
6:00
76
Newton's 3rd Law Pairs
4:18
36
2.4 Integration
22:34
187
18.2 Set up a Recoil Problem
6:28
19
24.3 Worked Example - Block Sliding Down Circular Slope
7:28
42
PS.6.1 Rocket Sled - Solve for Initial Velocity
1:30
22
15.3 Worked Example - Bouncing Ball
6:38
22
7.4 Hooke's Law
6:00
50
PS.6.1 Rocket Sled - Differential Equation
3:11
50
24.2 Energy State Diagrams
5:34
24
13.5 Demo: Wrapping Friction
1:10
32
19.4 Rocket Problem 4 - Solution
5:30
39
16.2 Momentum Diagrams
5:18
31
3.5 Demo: Relative Motion Gun
0:35
84
3.5 Demo: Shooting an Apple
0:52
99
11.3 Demo: Rotating Bucket
0:40
44
32.3 Worked Example - Angular Momentum About Different Points
6:10
16
29.4 Parallel Axis Theorem
4:11
13
29.6 Deep Dive - Derivation of the Parallel Axis Theorem
5:38
14
34.5 Worked Example - Particle Hits Pivoted Ring
8:13
16
36.1 Friction on a Rolling Wheel
4:80
25
32.2 Calculating Angular Momentum
3:80
13
30.1 Introduction to Torque and Rotational Dynamics
9:52
76
36.4 Worked Example - Yoyo Pulled Along the Ground
6:13
28
31.2 Internal Torques Cancel in Pairs
3:26
22
37.1 Kinetic Energy of Translation and Rotation
7:46
18
28.3 Review of Angular Velocity and Acceleration
3:14
12
29.3 Moment of Inertia of a Disc
5:41
18
31.4 Worked Example - Atwood Machine
11:20
18
29.2 Moment of Inertia of a Rod
4:20
43
30.4 Torque
2:40
23
29.1 Kinetic Energy of Rotation
6:27
146
35.1 Translation and Rotation of a Wheel
3:17
32
31.7 Worked Example - Two Blocks and a Pulley Using Energy
7:37
14
32.4 Angular Momentum of Circular Motion
3:27
12
35.5 Contact Point of a Wheel Rolling Without Slipping
3:38
15
36.2 Worked Example - Wheel Rolling Without Slipping Down Inclined Plane - Torque Method
6:50
19
30.2 Cross Product
5:90
32
DD.3.3 Deep Dive - Gyroscopes - Nutation and Total Angular Momentum
13:25
80
PS.10.1 Worked Example - Blocks with Friction and Massive Pulley
16:80
24
29.5 Deep Dive - Moment of Inertia of a Sphere
5:32
18
34.1 Torque Causes Angular Momentum to Change - Point Particle
2:59
11
37.3 Angular Momentum of Translation and Rotation
6:55
37
34.3 Angular Impulse
3:42
14
36.3 Demo: Spool Demo
0:44
25
28.2 Introduction to Translation and Rotation
2:39
18
35.3 Rolling Wheel in the Ground Frame
2:28
18
35.2 Rolling Wheel in the Center of Mass Frame
2:24
58
31.1 Relationship between Torque and Angular Acceleration
9:60
59
36.5 Analyze Force and Torque in Translation and Rotation Problems
3:60
23
33.5 Kinetic Energy of a Symmetric Object
2:34
14
34.4 Demo: Bicycle Wheel Demo
0:38
29
30.5 Torque from Gravity
4:44
28
32.1 Angular Momentum for a Point Particle
2:39
17
31.3 Worked Example - Find the Moment of Inertia of a Disc from a Falling Mass
7:20
42
35.4 Rolling Without Slipping Slipping and Skidding
5:57
21
31.5 Massive Pulley Problems
3:44
18
34.2 Torque Causes Angular Momentum to Change - System of Particles
3:56
12
33.4 If Momentum is Zero then Angular Momentum is Independent of Origin
5:42
16
33.2 Angular Momentum of a Symmetric Object
4:11
17
33.1 Worked Example - Angular Momentum of 2 Rotating Point Particles
7:00
33
37.2 Worked Example - Wheel Rolling Without Slipping Down Inclined Plane
4:14
26
30.3 Cross Product in Cartesian Coordinates
7:55
31
20.0 Week 7 Introduction
2:40
20
DD.3.1 Deep Dive - Gyroscopes - Free Body Diagrams, Torque, and Rotating Vectors
16:57
83
32.0 Week 11 Introduction
1:52
16
12.0 Week 4 Introduction
2:16
28
8.0 Week 3 Introduction
1:27
41
28.0 Week 10 Introduction
2:36
13
23.0 Week 8 Introduction
0:55
15
1.0 Week 1 Introduction
2:15
377
18.0 Week 6 Introduction
0:53
18
35.0 Week 12 Introduction
1:35
21
4.0 Week 2 Introduction
2:23
48
15.0 Week 5 Introduction
2:28
25
26.0 Week 9 Introduction
1:34
43
28.1 Rigid Bodies
3:10
27
0.1 Vectors vs. Scalars
1:70
1 705
Week 0: Welcome Video
2:57
7 916
Video 24: Fuel Cells for Mobile Batteries Case Study
1:54
399
Video 19: Time and Scale
8:20
475
Week 4 Update Video
2:46
98
Video 15: Imaging with a Tablet Camera
2:20
169
Video 18: Designing Graphics
10:10
161
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