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AP Physics 1
AP Physics 1 topics
0a: Position, Distance, and Displacement
0b Position vs. time graphs
0c: Velocity and Speed
0d: Acceleration
0e: Position, Velocity, and Acceleration vs. time graphs
0f: Review for Test 0
1a: Kinematics Formulas in 1D
1b: Freely Falling/Flying Objects
1c: Graphing Data to a linear fit
1d: How to do a physics lab
1e: Review for Test 1
1z: Derivation Challenge (1D Kinematics))
2a: Vector Components
2b: Projectile Motion and 2D Kinematics
2c: Review for Test 2
2z: Derivation Challenge (2D Kinematics)
3a: Newton's 1st Law
3b: Newton's 2nd Law
3c: Newton's 3rd Law
3z: Derivation Challenge (Newton's Laws)
4z: Derivation Challenge (Centripetal Forces)
5z: Derivation Challenge (Work and Energy)
7z: Derivation Challenge (Angular Mechanics)
8z: Derivation Challenge (Harmonic Oscillation)
Acceleration due to gravity and surface gravity
Angular Momentum
Average Velocity and Average Speed
Big picture of Rotational Mechanics
Center of Mass
Centripetal Acceleration and Force
Collisions in 2D
Conservation of Energy labs
Conservation of Energy Problem Solving
Conservation of momentum problem solving
Drawing Force Diagrams
Elastic and Inelastic collisions
Energy (and its transfer and transformation)
Equilibrium (Rotational and Translational)
Force of Gravity, Weight, and Normal Force
Free Body Diagram Worksheet
Gravitational Orbits
Gravitational Potential Energy
Impulse and Newton's Second Law
Impulse as Area under the curve
Inclines
Intro to Projectile Motion
LOL Diagrams and Energy Taxonomy
Moment of Inertia and Rotational Dynamics
Momentum and Energy conservation
Momentum and Impulse
Newton's Law of Universal Gravitation
Orbits and Gravitational Potential Energy
Pendulum
Period and Frequency
Power
Reference Frames videos and discussion of time travel and warped space
Review for test 3
Review for Test 7
Review for Test 4
Review for Test 5
Review for Test 6
Review for Test 8
Review of Centripetal Acceleration and Orbits
Review of Energy, Work, and Power
Review of Forces
Review of Kinematics
Review of Momentum and Impulse
Review of SHM and Waves
Review of Torque and Angular Mechanics
Rotational KE
Rotational Kinematics
S.I. Units, S.I. Prefixes, Converting Units
Simple Harmonic Motion
Simple Harmonic Motion (Pendulum)
Solving Problems Symbolically
Spring Elastic Energy
Spring force and Spring potential energy
Static and Kinetic Friction
Tension
Test (Work, Energy, Power)
Thermal Energy and non-Conservative Forces
Torque
Treating systems as a single object
Using the Kinematic Formulas (UAM formulas)
Vector Addition and Subtraction
What is physics and why is it so cool?
Work as area under F vs. x graph
Derivation Challenge (Momentum)
Bernoulli's Principle
Buoyancy
Density and Pressure
AP Physics 1
AP Physics 1 topics
0a: Position, Distance, and Displacement
0b Position vs. time graphs
0c: Velocity and Speed
0d: Acceleration
0e: Position, Velocity, and Acceleration vs. time graphs
0f: Review for Test 0
1a: Kinematics Formulas in 1D
1b: Freely Falling/Flying Objects
1c: Graphing Data to a linear fit
1d: How to do a physics lab
1e: Review for Test 1
1z: Derivation Challenge (1D Kinematics))
2a: Vector Components
2b: Projectile Motion and 2D Kinematics
2c: Review for Test 2
2z: Derivation Challenge (2D Kinematics)
3a: Newton's 1st Law
3b: Newton's 2nd Law
3c: Newton's 3rd Law
3z: Derivation Challenge (Newton's Laws)
4z: Derivation Challenge (Centripetal Forces)
5z: Derivation Challenge (Work and Energy)
7z: Derivation Challenge (Angular Mechanics)
8z: Derivation Challenge (Harmonic Oscillation)
Acceleration due to gravity and surface gravity
Angular Momentum
Average Velocity and Average Speed
Big picture of Rotational Mechanics
Center of Mass
Centripetal Acceleration and Force
Collisions in 2D
Conservation of Energy labs
Conservation of Energy Problem Solving
Conservation of momentum problem solving
Drawing Force Diagrams
Elastic and Inelastic collisions
Energy (and its transfer and transformation)
Equilibrium (Rotational and Translational)
Force of Gravity, Weight, and Normal Force
Free Body Diagram Worksheet
Gravitational Orbits
Gravitational Potential Energy
Impulse and Newton's Second Law
Impulse as Area under the curve
Inclines
Intro to Projectile Motion
LOL Diagrams and Energy Taxonomy
Moment of Inertia and Rotational Dynamics
Momentum and Energy conservation
Momentum and Impulse
Newton's Law of Universal Gravitation
Orbits and Gravitational Potential Energy
Pendulum
Period and Frequency
Power
Reference Frames videos and discussion of time travel and warped space
Review for test 3
Review for Test 7
Review for Test 4
Review for Test 5
Review for Test 6
Review for Test 8
Review of Centripetal Acceleration and Orbits
Review of Energy, Work, and Power
Review of Forces
Review of Kinematics
Review of Momentum and Impulse
Review of SHM and Waves
Review of Torque and Angular Mechanics
Rotational KE
Rotational Kinematics
S.I. Units, S.I. Prefixes, Converting Units
Simple Harmonic Motion
Simple Harmonic Motion (Pendulum)
Solving Problems Symbolically
Spring Elastic Energy
Spring force and Spring potential energy
Static and Kinetic Friction
Tension
Test (Work, Energy, Power)
Thermal Energy and non-Conservative Forces
Torque
Treating systems as a single object
Using the Kinematic Formulas (UAM formulas)
Vector Addition and Subtraction
What is physics and why is it so cool?
Work as area under F vs. x graph
Derivation Challenge (Momentum)
Bernoulli's Principle
Buoyancy
Density and Pressure
More
AP Physics 1 topics
0a: Position, Distance, and Displacement
0b Position vs. time graphs
0c: Velocity and Speed
0d: Acceleration
0e: Position, Velocity, and Acceleration vs. time graphs
0f: Review for Test 0
1a: Kinematics Formulas in 1D
1b: Freely Falling/Flying Objects
1c: Graphing Data to a linear fit
1d: How to do a physics lab
1e: Review for Test 1
1z: Derivation Challenge (1D Kinematics))
2a: Vector Components
2b: Projectile Motion and 2D Kinematics
2c: Review for Test 2
2z: Derivation Challenge (2D Kinematics)
3a: Newton's 1st Law
3b: Newton's 2nd Law
3c: Newton's 3rd Law
3z: Derivation Challenge (Newton's Laws)
4z: Derivation Challenge (Centripetal Forces)
5z: Derivation Challenge (Work and Energy)
7z: Derivation Challenge (Angular Mechanics)
8z: Derivation Challenge (Harmonic Oscillation)
Acceleration due to gravity and surface gravity
Angular Momentum
Average Velocity and Average Speed
Big picture of Rotational Mechanics
Center of Mass
Centripetal Acceleration and Force
Collisions in 2D
Conservation of Energy labs
Conservation of Energy Problem Solving
Conservation of momentum problem solving
Drawing Force Diagrams
Elastic and Inelastic collisions
Energy (and its transfer and transformation)
Equilibrium (Rotational and Translational)
Force of Gravity, Weight, and Normal Force
Free Body Diagram Worksheet
Gravitational Orbits
Gravitational Potential Energy
Impulse and Newton's Second Law
Impulse as Area under the curve
Inclines
Intro to Projectile Motion
LOL Diagrams and Energy Taxonomy
Moment of Inertia and Rotational Dynamics
Momentum and Energy conservation
Momentum and Impulse
Newton's Law of Universal Gravitation
Orbits and Gravitational Potential Energy
Pendulum
Period and Frequency
Power
Reference Frames videos and discussion of time travel and warped space
Review for test 3
Review for Test 7
Review for Test 4
Review for Test 5
Review for Test 6
Review for Test 8
Review of Centripetal Acceleration and Orbits
Review of Energy, Work, and Power
Review of Forces
Review of Kinematics
Review of Momentum and Impulse
Review of SHM and Waves
Review of Torque and Angular Mechanics
Rotational KE
Rotational Kinematics
S.I. Units, S.I. Prefixes, Converting Units
Simple Harmonic Motion
Simple Harmonic Motion (Pendulum)
Solving Problems Symbolically
Spring Elastic Energy
Spring force and Spring potential energy
Static and Kinetic Friction
Tension
Test (Work, Energy, Power)
Thermal Energy and non-Conservative Forces
Torque
Treating systems as a single object
Using the Kinematic Formulas (UAM formulas)
Vector Addition and Subtraction
What is physics and why is it so cool?
Work as area under F vs. x graph
Derivation Challenge (Momentum)
Bernoulli's Principle
Buoyancy
Density and Pressure
Collisions in 2D
Here are the notes we will go over in class
2D collisions
Sal Khan does an example momentum problem in 2D
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