Linear Momentum, Center of Mass and Collision
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Center of Mass and System of Particles (10:34)
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Newton's second law of motion applied to a system of particles (8:28)
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Impulse and Momentum (Impulse Momentum Principle) (10:56)
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Elastic and Inelastic Collision and The Law of Conservation of Linear Momentum (10:15)
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Elastic Collision: Equation Derivations (9:53)
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Tsiolkovsky Rocket Equation (10:05)
Rotational Dynamics. Angular Variables, Inertia and Torque
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Angular Variables in Rotation (15:39)
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Constant Angular Acceleration: Derivation of Equations of Rotational Motion (11:06)
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Moment of Inertia and The Parallel Axis Theorem (13:26)
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What is Torque in Physics and How to Find The Direction of Torque (9:32)
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Newton's Second Law of Motion in Rotation (7:23)
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Kinetic Energy of Rotating Bodies (8:20)
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Rotational Dynamics: Full Lesson Summary
Rolling, Torque and Angular Momentum
Physics Problems & Solutions (Momentum, Collision and Center of Mass)
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Center of Mass of Falling Rocks (3:00)
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Conservation of Energy and Linear Momentum Conservation (2:20)
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Center of Mass of Two Particles - Projectile Motion (6:43)
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Using Tsiolkovsky Rocket Equation to Find % Fuel Burnt (3:27)
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Elastic Collision and Jupiters Slingshot (3:49)
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Physics of Cue Ball Collisions: Conservation of Momentum (3:26)
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Impulse in a Falling Elevator: Can Jumping Before Fall Reduce the Impulse (4:41)
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Impulse-Momentum Theorem: Free Fall Collision of a Diver (2:56)
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Calculating Maximum Force During Ball Collision Using Impulse-Momentum Theorem (4:06)
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Kinetic Energy Change After Explosion (Using Momentum and Energy Conservation) (2:28)
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Finding the Mass of a Block Using Momentum and Friction (2:56)
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Inelastic Collision of two Putty Balls: Conservation of Momentum and Energy (4:36)
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Energy Conservation and Momentum Conservation of a Ball Projected in a Gun (3:20)
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What Is the Common Velocity in a Frictionless Collision Scenario? (3:42)
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Conservation of Energy and Momentum Applied to Collision Problems? (5:39)
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Elastic Collision Calculations: Determining Final Speeds Using Conservation Principles (3:51)
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Analyzing Elastic Collisions and Projectile Motion with Pucks (2:30)
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Collision Physics: Solving for the Angle Between Velocities in Inelastic Collisions (2:04)
Physics Problems & Solutions (Rotation)
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Start Time for a Wheel Covering 120 Radians in 4 Seconds @ Constant Angular Acceleration (4:17)
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Calculations for Angular Velocity of a Rotating Toast (3:30)
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Calculate Angular Acceleration to Stop a Rotating Flywheel (5:11)
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Understanding Angular Velocity Through the Spinning Wheel Arrow Problem (3:36)
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Belt-Driven Wheels: Calculating Angular Speed and Acceleration (2:58)
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Flywheel Deceleration: Calculating Angular Acceleration and Total Revolutions (5:19)
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How Mass Position Influences Rotational Inertia of a System of Rotating Masses (4:40)
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Why Combine Tangential and Radial Acceleration in Circular Motion? (4:41)
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What’s the Moment of Inertia and Kinetic Energy of a Spinning Flywheel? (3:14)
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Rotation Dynamics of a Plate: Finding the Net Torque (3:07)
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Torque And Angular Acceleration Explained Through Judo (5:22)
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Calculating Angular Acceleration: Rotational Dynamics of a Falling Chimney (5:49)
