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name
time
views
Applying Newton's 2nd Law
3:17
246
0.6 Going Between Representations
1:36
339
Internal and External Forces
3:44
93
12.2 Constraint Condition
7:70
173
DD.2.4 Worked Example: 1D Elastic Collision in CM Frame
6:20
34
21.5 Work-Kinetic Energy Theorem in 2D and 3D
5:51
164
10.3 Worked Example - Angular position from angular acceleration.
4:45
98
22.3 Conservative Forces
2:30
141
21.4 Work in 2D and 3D
5:25
139
PS.2.2 Worked Example - Stacked Blocks - Solve for the Maximum Force
4:44
122
3.3 Instantaneous Acceleration in 2D
5:20
223
23.5 Potential Energy of Gravitation
7:40
99
19.2 Rocket Problem 2 - Momentum Diagrams
5:00
78
17.7 Reduction of a System to a Point Particle
4:40
52
2.1 Introduction to Acceleration
3:26
238
14.3 Resistive forces - high speed case
10:50
31
PS.2.3 Window Washer Free Body Diagrams
10:13
50
25.3 Reading Potential Energy Diagrams
5:22
34
27.6 2D Collisions
6:46
77
6.1 Contact Forces
3:18
51
8.3 Angular Velocity
5:31
108
11.2 Worked Example - Car on a Banked Turn
7:37
27
DD.2.2 Relative Velocity is Independent of Reference Frame
3:43
51
17.6 Velocity and Acceleration of the Center of Mass
4:16
24
2.3 Worked Example: Acceleration from Position
3:45
97
9.2 Uniform Circular Motion: Direction of the Acceleration
3:36
44
12.3 Virtual Displacement
3:43
51
12.4 Solve the System of Equations
4:50
49
17.5 Worked Example - Center of Mass of a Uniform Rod
5:51
27
3.4 Projectile Motion
6:12
109
2.2 Acceleration in 1D
4:29
160
18.1 Relative Velocity
1:57
49
21.3 Kinetic Energy as a Scalar Product
2:10
22
17.2 Worked Example - Center of Mass of 3 Objects
7:14
42
14.1 Intro to resistive forces
4:52
31
15.1 Momentum and Impulse
7:21
51
13.4 Density
0:52
30
PS.6.1 Rocket Sled - Integrate the Rocket Equation
3:33
57
4.1 Newton's First and Second Laws
4:16
235
DD.2.3 1D Elastic Collision Velocities in CM Frame
3:46
17
PS.2.1 Worked Example - Sliding Block
6:20
61
7.2 Ideal Rope
4:58
53
25.2 Stable and Unstable Equilibrium Points
7:22
48
12.1 Pulley Problems
10:30
51
16.1 Cases of Constant Momentum
5:34
27
22.1 Path Independence - Gravity
5:39
77
23.4 Potential Energy of a Spring
5:20
57
20.1 Kinetic Energy
2:41
41
10.1 Circular Motion - Acceleration
4:00
36
20.2 Work by a Constant Force
3:44
24
19.6 Rocket Problem 6 - Solution for No External Forces
5:10
35
13.3 Differential Elements
1:40
51
DD.2.5 Kinetic Energy in Different Reference Frames
6:60
27
PS.3.1 Worked Example - Orbital Circular Motion - Velocity
1:70
32
P.1.5 Worked Example: Pedestrian and Bike at Intersection
13:59
79
5.2 Worked Example: Gravity - Superpositon
8:46
47
14.2 Resistive forces - low speed case
8:26
27
27.3 Kinetic Energy and Momentum Equation
7:90
48
1.2 Position Vector in 1D
2:25
244
DD.2.6 Kinetic Energy in the CM Frame
4:27
16
3.2 Instantaneous Velocity in 2D
6:12
92
17.1 Definition of the Center of Mass
4:32
31
15.4 Momentum of a System of Point Particles
4:45
39
PS.2.3 Window Washer Solution
2:26
40
11.1 Newton's 2nd Law and Circular Motion
3:17
35
P.1.3 Worked Example: Braking Car
6:47
105
15.2 Impulse is a Vector
3:16
30
13.6 Summary for Differential Analysis
1:18
45
8.1 Polar Coordinates
3:35
65
24.1 Mechanical Energy and Energy Conservation
5:56
37
27.4 Worked Example: Elastic 1D Collision Again
5:23
12
DD.2.1 Position in the CM Frame
4:33
22
24.4 Newton's 2nd Law and Energy Conservation
5:28
44
21.1 Scalar Product Properties
7:47
27
4.3 Reference Frames
9:26
142
3.1 Coordinate System and Position Vector in 2D
2:17
94
13.2 Differential Analysis of a Massive Rope
15:34
44
PS.7.1 Worked Example - Collision and Sliding on a Rough Surface
6:47
52
5.1 Universal Law of Gravitation
6:55
107
25.1 Force is the Derivative of Potential
3:59
51
0.2 Vector Operators
2:14
591
1.1 Coordinate Systems and Unit Vectors in 1D
3:60
397
0.3 Coordinate Systems and Unit Vectors
1:40
333
18.3 Solve for Velocity in the Ground Frame
3:00
24
20.5 Work-Kinetic Energy Theorem
1:56
130
0.5 Vector Decomposition into components
1:38
247
19.3 Rocket Problem 3 - Mass Relations
2:51
51
1.3 Displacement Vector in 1D
3:28
235
19.1 Rocket Problem 1 - Set up the Problem
3:48
59
7.3 Solving Pulley Systems
9:56
79
22.5 Summary of Work and Kinetic Energy
7:00
42
1.5 Instantaneous Velocity in 1D
5:40
186
PS.3.1 Worked Example - Orbital Circular Motion - Radius
3:44
41
17.3 Center of Mass of a Continuous System
2:55
25
9.1 Uniform Circular Motion
3:50
52
1.7 Worked Example: Derivatives in Kinematics
3:80
171
5.3 Gravity at the surface of the Earth: The value of g.
4:49
51
PS.2.2 Worked Example - Stacked Blocks - Choosing the System of 2 Blocks Together
5:28
39
20.4 Integrate adt and adx
4:50
55
6.2 Static Friction
3:20
52
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