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1.1: Describing Motion
2.1: Forces and Motion
3.1: Projectile Motion
4.1: Circular Motion
5.1: Work and Energy
6.1: Momentum
7.1: Rotational Motion

OBSERVAÇÃO:

Os tópicos abaixo referem-se a alguns assuntos do volume I, mas não seguem a mesma numeração do livro.

#	Lessons	Simulations
1.1	Analyzing Motion Using Diagrams (5)	Motion Diagrams Motion Diagrams: Question 1 Motion Diagrams: Question 2 Motion Diagrams: Question 3 Motion Diagrams: Question 4
1.2	Analyzing Motion Using Graphs (4)	Kinematics Graphs Kinematics Graphs: Velocity Kinematics Graphs: Acceleration Kinematics Graphs: Question 4
1.3	Predicting Motion from Graphs (10)	Kinematics Graphs: Question 1 Kinematics Graphs: Answer 1 Kinematics Graphs: Question 2 Kinematics Graphs: Answer 2 Kinematics Graphs: Question 3 Kinematics Graphs: Answer 3 Kinematics Graphs: Question 4 Kinematics Graphs: Answer 4 Kinematics Graphs: Question 5 Kinematics Graphs: Answer 5
1.4	Predicting Motion from Equations (4)	Predict Motion: Equations 1 Predict Motion: Equations 2 Predict Motion: Equations 3 Predict Motion: Equations 4
1.5	Problem-Solving Strategies for Kinematics (5)	Question Solve Strategy: Word Question Solve Strategy: Pictorial Question Solve Strategy: Motion Question Solve Strategy: Graph Question Solve Strategy: Equation
1.6	Skier Races Downhill (2)	Skier's Motion Question
1.7	Balloonist Drops Lemonade (5)	Lemonade Drop: Graph Lemonade Drop: Pictorial Description Lemonade Drop: Motion Lemonade Drop: Question 1 Lemonade Drop: Question 2
1.8	Seat Belts Save Lives (3) Estimation Video: Crate on a Truck 1 Estimation Video: Crate on a Truck 2 Estimation Video: Egg Hits Windshield	Crate Slide Collision Acceleration Collision Acceleration Question
1.9	Screeching to a Halt (4)	Car Stop: Distance Car Stop: MotionDiagrams Car Stop: Question Car Stop: Reaction
1.10	Pole-Vaulter Lands (4)	Pole-Vaulter: Graph Pole-Vaulter: Motion Pole-Vaulter: Motion Diagram Pole-Vaulter: Question
1.11	Car Starts, Then Stops (4)	Car Start Stop: Diagram Car Start Stop: Graph Car Start Stop: Question Car Start Stop: Time
1.12	Solving Two-Vehicle Problems (4)	Two-Vehicle: Motion Description Two-Vehicle: Motion Diagrams Two-Vehicle: Motion Graphs Two-Vehicle: Numbers Two-Vehicle: Question
1.13	Car Catches Truck (4)	Car Catches Truck: Graphs Car Catches Truck: Motion Car Catches Truck: Numbers Car Catches Truck: Question
1.14	Avoiding a Rear-End Collision (5)	Avoid Rear Collision: 1 Avoid Rear Collision: 2 Avoid Rear Collision: Motion Avoid Rear Collision: Graphs Avoid Rear Collision: Equations
2.1.1	Force Magnitudes (1)	Compare Force Magnitudes
2.1.2	Skydiver (1)	Skydiver
2.1.3	Tension Change (1)	Tension Change While Pulling
2.1.4	Sliding on an Incline (2)	Sliding on Incline: Friction Sliding on Incline: Friction
2.1.5	Car Race (1) Estimation Video: Ball 1 Estimation Video: Ball 2 Estimation Video: Two Balls	Car Race
2.2	Lifting a Crate (5)	Crate Up: Question 1 Crate Up: Acceleration Force Diagram Crate Up: Question 6 Crate Up Question 7
2.3	Lowering a Crate (5)	Lowering a Crate: Question 1 Lowering a Crate: Question 2 Force Diagram Lowering a Crate: Question 5 Lowering a Crate: Question 6
2.4	Rocket Blasts Off (1)	Rocket
2.5	Truck Pulls Crate (1) Estimation Video: Truck Pulls Crate 1 Estimation Video: Truck Pulls Crate 2	Truck Pulls Crate
2.6	Pushing a Crate Up a Wall (5)	Push Crate Up Wall Force Diagram Push Crate: Answer 1 Push Crate: Answer 3 Push Crate: Answer 4
2.7	Skier Goes Down a Slope (5) Estimation Video: Truck Slips on an Incline	Skier 1 Skier 2 Force Diagram Skier: Magnitudes of the Forces Skier: Acceleration Skier: Kinematics
2.8	Skier and Rope Tow (5)	Ski Rope Tow Force Diagram Ski Rope Tow: Answer 1 Ski Rope Tow: Magnitudes of the Forces Ski Rope Tow: Tension
2.9	Pole-Vaulter Vaults (5)	Pole-Vaulter Pole-Vaulter: Acceleration Force Diagram Pole-Vaulter: Answer 3 Pole-Vaulter: Answer 5
2.10	Truck Pulls Two Crates (2)	Truck Pulls Two Crates Truck Pulls: Answer 2
2.11	Modified Atwood Machine (4) Modified Atwood Machine	Modified Atwood Machine: Question 1 Modified Atwood Machine: Question 2 Modified Atwood Machine: Question 4 Modified Atwood Machine: Question 8
3.1	Solving Projectile Motion Problems (3)	Projectile Motion Projectile Motion: Vertical Motion Projectile Motion: Visualizing
3.2	Two Balls Falling (1)	Two Balls Fall
3.3	Changing the x-Velocity (1)	"What If" Questions
3.4	Projectile x- andy-Accelerations (1)	Projectile x-and y-Accelerations
3.5	Initial Velocity Components (1)	Initial Velocity Components
3.6	Target Practice I (1)	Target Practice 1
3.7	Target Practice II (1)	Target Practice 2
4.1	Magnitude of Centripetal Acceleration (2) Estimation Video: Cars Going Around a Track	Magnitude of Centripetal Acceleration Acceleration Direction
4.2	Circular Motion Problem Solving (4) Estimation Video: Swinging a Bucket of Water	Circular Question Solving Acceleration Direction Force Diagram Tension
4.3	Cart Goes Over Circular Path (5)	Cart Over Hump Cart Over Hump: Question 1 Cart Over Hump: Answer 1 Force Diagram Cart Over Hump: Answer 2 Cart Over Hump: Answer 4
4.4	Ball Swings on a String (12)	Ball in Circle 1 Ball in Circle: Question 1 Force Diagram 1 Ball in Circle: Answer 1 Newton's Second Law Force Diagram 2 Answer 2 Radial Component of Newton's Second Law 1 Force Diagram 3 Answer 3 Radial Component of Newton's Second Law 2 Question 4
4.5	Car Circles a Track (5) Estimation Video: Plane Flies at End of String	Car on Level Track Car on Level Track: Question 1 Car on Level Track: Answer 1 Car on Level Track: Answer 1 (graphical) Force Diagram Newton's Second Law
4.6	Satellites Orbit (2)	Orbital Motion Force Orbital Motion Question
5.1	Work Calculations (4)	Upward-Moving Elevator Stops Work-Energy Bar Charts Upward-Moving Elevator Stops: Question 1 Upward-Moving Elevator Stops: Question 2
5.2	Upward-Moving Elevator Stops (4)	Upward-Moving Elevator Stops Work-Energy Bar Charts Upward-Moving Elevator Stops: Question 1 Upward-Moving Elevator Stops: Question 2
5.3	Stopping a Downward-Moving Elevator (4)	Stopping a Downward-Moving Elevator Work-Energy Bar Charts Work-Energy: Question 1 Work Energy Equation: Question 2
5.4	Inverse Bungee Jumper (3)	Inverse Bungee Jumper Work-Energy Bar Charts Work-Energy: Question 1
5.5	Spring-Launched Bowler (4) Estimation Video: Force Constant of Hot Wheels Launcher 1 Estimation Video: Force Constant of Hot Wheels Launcher 2	Horizontal Spring Launch Person Bowling Work-Energy Bar Charts Work-Energy: Question 1 Horizontal Spring Launch: Question 3
5.6	Skier Speed (7)	Skier Speed Force Diagram Skier Speed: Question 1 Skier Speed: Newton's Second Law Work-Energy Bar Charts Skier Speed: Question 3 Skier Speed: Question 4
5.7	Modified Atwood Machine (5) Estimation Video: Hot Wheel Projectile 1 Estimation Video: Hot Wheel Projectile 2 Estimation Video: Tension in Swing Cables	Modified Atwood Machine 1 Total Energy Charts 1 Modified Atwood Machine: Question 2 Total Energy Charts 2 Modified Atwood Machine: Question 4
6.1	Momentum and Energy Change (1)	Momentum and Energy Change
6.2	Collisions and Elasticity (4)	Collisions and Elasticity: Question 1 Collisions and Elasticity: Question 2 Collisions and Elasticity: Question 3 Collisions and Elasticity: Question 5
6.3	Momentum Conservation and Collisions (6)	Momentum Collision Energy Bar Chart Momentum Collision Energy Numeric Momentum Collision Question Momentum Collision Px Bar Chart Momentum Collision Px Numeric Momentum Collision Py Numeric
6.4	Collision Problems (3)	Collision Questions: Introduction Collision Questions: Question 2 Collision Questions: Question 3
6.5	Car Collision: Two Dimensions (1)	Car Collision
6.6	Saving an Astronaut (2)	Saving an Astronaut Answer Saving an Astronaut Question
6.7	Explosion Problems (1)	Explosion
6.8	Skier and Cart (4)	Vibro-Ride Bar Charts Vibro-Ride Question Vibro-Ride Values Vibro-Ride
6.9	Pendulum Bashes Box (5)	Pendulum Bashes Box: Introduction Pendulum Bashes Box: Question 1 Pendulum Bashes Box: Question 2 Pendulum Bashes Box: Question 3 Pendulum Bashes Box: Answer 3
6.10	Pendulum Person-Projectile Bowling (2)	Pendulum Person-Projectile Bowling 1 Pendulum Person-Projectile Bowling 2
Torques and Statics
7.1	Calculating Torques (6)	Horizontal Beam Forces Horizontal Beam Forces: Question 1.a Horizontal Beam Forces: Question 1.b Horizontal Beam Forces: Question 2 Horizontal Beam Forces: Question 3 Horizontal Beam Forces: Question 4
7.2	A Tilted Beam: Torques and Equilibrium (2)	A Tilted Beam: Torques and Equilibrium A Tilted Beam: Question 1
7.3	Arm Levers (4) Estimation Video: Biceps Experiment	The Biceps Lifting System The Biceps Lifting: Question 1 The Triceps Pushing System The Triceps Lifting: Question 2
7.4	Two Painters on a Beam (2)	Painters Painters: Question 1
7.5	Lecturing from a Beam (3)	Lecturing from a Beam Lecturing from a Beam: Question 1
Rotational Kinematics and Dynamics
7.6	Rotational Inertia (2) Estimation Video: Windmill 1 Estimation Video: Windmill 2	Rotational Inertia Translational Acceleration Rotational Acceleration
7.7	Rotational Kinematics (4)	Rotational Kinematics: Angular Acceleration Rotational Kinematics: Angular Position Rotational Kinematics: Angular Velocity Rotational Kinematics: Question
7.8	Rotoride- Dynamics Approach (2)	RotoRide Dynamics and Energy Approach RotoRide: Question 4
7.9	Falling Ladder (2)	Falling Ladder: Introduction Falling Ladder: Question 3
7.10	Woman and Flywheel Elevator-Dynamics Approach (3)	Woman and Flywheel Elevator: Introduction Woman and Flywheel Elevator: Question 3 Woman and Flywheel Elevator: Question 4
Rotational Energy
7.11	Race Between a Block and a Disk (2) Estimation Video: Toys	Disk Block Race Total Energy Charts Disk Block Race: Question 2
7.12	Woman and Flywheel Elevator-Energy Approach (4)	Woman and Flywheel Elevator: Introduction Woman and Flywheel Elevator: Question 1 Total Energy Charts Woman and Flywheel Elevator: Question 4
7.13	Rotoride-Energy Approach (4)	RotoRide Dynamics & Energy Approach Total Energy Charts RotoRide Dynamics & Energy: Question 1 RotoRide Dynamics & Energy: Question 5
Angular Momentum Conservation
7.14	Ball Hits Bat (5)	Bat Hits Ball: Introduction Bat Hits Ball: Question 2 Bat Hits Ball: Question 3 Bat Hits Ball: Question 4 Bat Hits Ball: Question 5 Bat Hits Ball: Question 5.b
Vibrations and Oscillations
9.1	Position Graphs and Equations (4)	Vibrations: Position Vibration: A Vibrations: Position Vibration: F Vibrations: Position Vibration: phi Vibrations: Position Vibration: QA
9.2	Describing Vibrational Motion (6)	Vibrations: Describe Vibrational Motion Vibrations: Question 1 Vibrations: Question 3 Vibrations: Question 4 Vibrations: Question 5 Vibrations: Question 6
9.3	Vibrational Energy (14)	Vibrational Energy Vibrational Energy: Question 3 Total Energy Charts Vibrational Energy: Question 3.b Vibrational Energy: Question 3.c Vibrational Energy: Question 4 Total Energy Charts Vibrational Energy: Question 4.b Vibrational Energy: Question 4.c Vibrational Energy: Question 5 Total Energy Charts Vibrational Energy: Question 5.b Vibrational Energy: Question 5.c Vibrational Energy: Question 5.d
9.4	Two Ways to Weigh Young Tarzan (2)	Two Ways to Weigh Young Tarzan Tarzan: Question 2
9.5	Ape Drops Tarzan (1)	Ape Drops Tarzan
9.6	Releasing a Vibrating Skier I (1)	Releasing a Vibrating Skier
9.7	Releasing a Vibrating Skier II (1)	Releasing a Vibrating Skier
9.8	One-and Two-Spring Vibrating Systems (4) Estimation Video: Vibrating Cart on Incline 1 Estimation Video: Vibrating Cart on Incline 2	One- & Two-Spring Vibrating Systems 1 Spring Vibrating System: Answer 1 One- & Two-Spring Vibrating Systems 2 One- & Two-Spring Vibrating: Answer 2
9.9	Vibro-Ride (2)	Vibro-Ride Vibro-Ride: Question 4
9.10	Pendulum Frequency (6) Estimation Video: Selective Pendulum Swinging	Pendulum Frequency: Question 1 Pendulum Frequency: Answer 1 Pendulum Frequency: Question 2 Pendulum Frequency: Question 2 Pendulum Frequency: Question 3 Pendulum Frequency: Answer 3
9.11	Risky Pendulum Walk (1)	Risky Pendulum Walk
9.12	Physical Pendulum (2)	The Physical Pendulum 1 The Physical Pendulum 2

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