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Physica
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Mr. Butler's Physics Cloud
AP Physics C
Course Resources
AP C Syllabus 2023
Crack.com
AP Central (AP Physics C)
AP Physics C Practice Exams
5E Model
Successful Students
AP C Equation Types
AP C Equation Types
AP Lab Report Format
Problem Solving Method
Midterm Exam Outline
Independent Study Assignment
End of Year Project
University Physics w/Solutions
University Physics
Chapter 1 Solutions
Chapter 2 Solutions
Chapter 3 Solutions
Chapter 4 Solutions
Chapter 5 Solutions
Chapter 6 Solutions
Chapter 7 Solutions
Chapter 8 Solutions
Chapter 9 Solutions
Chapter 10 Solutions
Chapter 13 Solutions
Chapter 14 Solutions
SW Solutions
SW1C
SW1D
SW1K
SW1L
SW1N
SW1O
SW2A
SW2B
SW2C
SW2E
SW2F
SW2H
SW3D
SW3H
SW4A
SW4E
SW4G
SW4H
SW4K
SW4M
The Nature of Physics
Vectors
Study Guide
Focus Questions
Graphical Method of Vector Addition 1
Graphical Method of Vector Addition 2
Vector Components Defined
Determining Vector Components 1
Composition by Rectangular Resolution
Resultant by Component Method
Resultant by Component Method 2
Resultant by Component Method 3
Force Systems
Intro to Vectors 1
Intro to Vectors 2
Intro to 3D Vectors
Vector Axis Angles
3D Axes Angle Diagram
Visualizing Unit Vectors
Visualizing 3D Vectors
Angle Between Two Vectors
Angle Between Two Vectors
3D Axes Angles
3D Axes Angles Visualized
2D-3D Vectors (Vector Algebra)
Physical Interpretation of DOT and CROSS Products
The Vector DOT Product
The Vector CROSS Product
Vector Component Form in 3D
Finding a Unit Vector in a Given 3D Vector Direction
Rectilinear Kinematics
Study Guide
Learning Objectives
Focus Questions
Frames of Reference
Motion Diagrams 1
Motion Diagrams 2
Motion Diagrams 3
Motion Diagrams 4
Velocity and Acceleration from Position 1
Velocity and Acceleration from Position 2
Velocity and Position Vector Functions by Integration
Position Vector Function by Integration
Calculus: Position-Velocity Graphs
Uniform Acceleration Example
Galileo's Inclined Plane
Galileo's Law
da Vinci's Law of Integers
Galileo's Law of Odd Numbers/Squares
Galileo's Law of Falling Bodies
Galileo, da Vinci and Free-Fall
Free-Fall BBC
Hammer vs Feather - Physics on the Moon
Graphs of Free-Fall
Techniques for Interpreting Rectilinear Motion Graphs
2D/3D Kinematics
Study Guide
Focus Questions
Position Vector
Average Velocity Vector
Instantaneous Velocity Vector
Finding Velocity in 3D
Average Acceleration Vector
Instantaneous Acceleration Vector
Projectile Parameters
Independence of X-Y Motions of Projectiles
Hank and the Hunter
The Monkey and the Hunter
Galilean Relativity - Ship-Shore Experiment
Kinematics of Uniform Circular Motion
Uniform Circular Motion
Uniform/Non-Uniform Circular Motion
Uniform vs Non-Uniform Circular Motion
Relative Velocity Sim
2D Relative Velocity (Boat-River)
Relaitve Motion
Galilean Relativity
Newton's Laws
Study Guide
Newton's 3rd Law of Motion
Newton's 1st Law Tutorial
Newton's 1st Law of Motion
Pseudo Forces
Newton's 2nd Law
FBD Examples
Drawing FBD's and Applying Newton's Laws
Drawing FBD's/Applying Newton's Laws
Inertial & Gravitational Mass
Inertial-Gravitational Mass
Equivalence of Mass
Equivalence Principle
Focus Questions
Focus Questions
Particle Adventure
The Standard Model (Version A)
The Standard Model (Version B)
The Standard Model
The Map of Particle Physics
Unexplained Mysteries of the Standard Model
Interactive Standard Model
The Theory of Almost Everything
CERN: The Standard Model
The Standard Model and Beyond
Application of Newton's Laws
Study Guide
Drawing FBD's/Applying Newton's Laws
Forces on an Incline 1
Forces on an Incline 2
Forces on an Incline 3
Forces on an Incline 4
The Centrifugal Force is Not Real!
Motion in a Vertical Circle
Centripetal vs Centrifugal
Physics of Banked and Unbanked Curves
Focus Questions: Set 1
Focus Questions: Set 2
Atwood's Machine Examples
Centrifugal Force-Pseudo Force
Inertial and Non-Inertial Frames
Pseudo Forces
Rotating Reference Frames
Centrifugal Force (H2O Example)
Spinning Liquid
Centripetal and Centrifugal Forces
Atwood's Machine - Multiple Body Systems
Atwood's Machine Problem
Atwood's Machine Demo Lab
Friction Graphs
Dynamics of Vertical Circular Motion
Work and Kinetic Energy
Study Guide
Focus Questions
Potential Energy/Energy Conservation
Study Guide
Focus Questions
Potential Energy Functions
Energy Diagrams
Work-Interpreting Force vs Displacement Graphs
Energy Conservation in a Vibrating Spring
Energy Conservation in a Pendulum
Conservative vs Non-Conservative Forces
Mechanical Energy Conservation
Springs and Hooke's Law
The Gradient (Partial Differentiation)
Potential Energy Functions
Impulse-Momentum
Study Guide
Focus Questions
The Mechanical Universe: Conservation of Momentum
Elastic and Inelastic Collisions
Elastic and Inelastic Collisions Summary
Ballistic Pendulum
Ballistic Pendulum
2D Collision Examples
Two Dimensional Collisions
2D Momentum Conservation
Center of Mass and Projectile Motion
MIT Physics Demo-Center of Mass Trajectory
Finding Center of Mass (Level 1)
Finding Center of Mass (Level 2)
Rotational Kinematics
Rotational Kinematics Overview
Moment Of Inertia Racing
Race of the Objects
Rotational Inertia: Race Between a Ring and a Disc
Rotational Inertia Ranking
Focus Questions
Parallel Axis Theorem
The Parallel-Axis Theorem
Parallel Axis Theorem Proof
Rotational Dynamics
Angular Momentum Basics
Angular Momentum
Angular Momentum Conservation
Angular Momentum Conservation
Angular Momentum Conservation of Systems
Rotational Dynamics Examples
Focus Questions
Bizarre Spinning Toys
Gyroscopic Precession
Precession and Gyroscopes
Precession of the Earth
Torques and Gyroscopes
Gravitation w/Kepler's Laws
Focus Questions
Gravitational Potential and Gravitational Potential Energy
Periodic Motion
Focus Questions
SHM and Circular Motion
Understanding Simple Harmonic Motion
SHM Oscillator 1
Simple Pendulum Vectors
Deriving SHM Equations
SHM Oscillator 2
Graphs of SHM (x, v and a)
SHM of a Simple Pendulum
Energy of a Mass-Spring System