AP Physics Essentials - Bozeman Science
1-Systems and Objects;
5-Objects;
16-Density
59-Position, Velocity, and Acceleration
38-Motion
39-Forces
40-Interaction Forces
41-Newton's Third Law
42-Vector Sum of Forces
43-Free Body Diagrams
60-Newton's Second Law
51-Work-Energy Principle
63-Total Energy
64-Work and Energy
76-Conservation Laws
88-Bernoulli's Equation (Fluids)
98-Continuity Equation (Fluids)
65-Heating
84-Heat
85-Thermodynamics and P-V Diagrams
129-Gas Pressure
130-Kinetic Theory and Temperature
131-Ideal Gas Law
132-Thermal Equilibrium
133-Second Law of Thermodynamics
6-8 Electric Charge
91 Conservation of Electric Charge
26-Electric Force
46-Calculating the Electric Force
72-Electrostatics Induction
35-36 Equipotential Lines
27-30 - Electric Field
74-Electric Circuits
87-Kirchhoff's Loop Rule
92-Kirchhoff's Junction Rule
73 - Resistors and Capacitors
70 - Magnetic Properties
71 - Electromagnetic Induction
31-34 Magnetic Fields
100-Transverse and Longitudinal Waves
101-Mechanical and Electromagnetic Waves
102-Wave Amplitude
103-Wave Energy
104-Wave Period and Frequency
105-Wavelength
106-Wave Equation
107-Wave Speed
108-Doppler Effect
109-Wave Interference
110-Wave Diffraction
111-Interference Patterns
112-Diffraction Effects
118-124 Light, Lenses, Mirrors, and Electromagnetic Waves
125-126 Photons
127-128 Wave-Particle Duality; Matter Waves
135 - Wave Model of an Electron
13-14 Wave-Particle Duality
89 - Energy-Mass Equivalence E=mc2
136 - Half-Life and Radioactive Decay
1-Systems and Objects;
5-Objects;
16-Density
59-Position, Velocity, and Acceleration
38-Motion
39-Forces
40-Interaction Forces
41-Newton's Third Law
42-Vector Sum of Forces
43-Free Body Diagrams
60-Newton's Second Law
51-Work-Energy Principle
63-Total Energy
64-Work and Energy
76-Conservation Laws
88-Bernoulli's Equation (Fluids)
98-Continuity Equation (Fluids)
65-Heating
84-Heat
85-Thermodynamics and P-V Diagrams
129-Gas Pressure
130-Kinetic Theory and Temperature
131-Ideal Gas Law
132-Thermal Equilibrium
133-Second Law of Thermodynamics
6-8 Electric Charge
91 Conservation of Electric Charge
26-Electric Force
46-Calculating the Electric Force
72-Electrostatics Induction
35-36 Equipotential Lines
27-30 - Electric Field
74-Electric Circuits
87-Kirchhoff's Loop Rule
92-Kirchhoff's Junction Rule
73 - Resistors and Capacitors
70 - Magnetic Properties
71 - Electromagnetic Induction
31-34 Magnetic Fields
100-Transverse and Longitudinal Waves
101-Mechanical and Electromagnetic Waves
102-Wave Amplitude
103-Wave Energy
104-Wave Period and Frequency
105-Wavelength
106-Wave Equation
107-Wave Speed
108-Doppler Effect
109-Wave Interference
110-Wave Diffraction
111-Interference Patterns
112-Diffraction Effects
118-124 Light, Lenses, Mirrors, and Electromagnetic Waves
125-126 Photons
127-128 Wave-Particle Duality; Matter Waves
135 - Wave Model of an Electron
13-14 Wave-Particle Duality
89 - Energy-Mass Equivalence E=mc2
136 - Half-Life and Radioactive Decay
Khan Academy Physics
1-Intro to vectors & scalars | One-dimensional motion
2-Calculating average velocity or speed | One-dimensional motion
3-Solving for time | One-dimensional motion
4-Displacement from time and velocity example | One-dimensional motion
5-Acceleration | One-dimensional motion
18-Would a brick or feather fall faster?
19-Deriving displacement as a function of time, acceleration, and initial velocity
24-Visualizing vectors in 2 dimensions
20-36 Projectile Motion (17 videos)
6-More on Newton's first law of motion
7-Newton's second law of motion | Forces and Newton's laws of motion
8-Newton's third law of motion | Forces and Newton's laws of motion
37-40 Normal Force and Forces on an Inclined Plane
41-45 Static and Kinetic Friction
47-48 Tension Force
55-58 Work and energy
88-100 Pressure, Fluids, and Fluid Flow
101-105 Thermodynamics, Parts 1-5
106-107 Electrostatics and Electric Field
110 Electric Potential Energy
112-113 Voltage and Capacitance
115-117 Series and Parallel Circuits
121-128 Magnetic Forces and Fields
129-131 Electric Motors
132 - Induced Current in a Wire
136-137 Waves
138-141 Doppler Effect
145-149 Refraction, Snell's Law, Total Internal Reflection
150-158 Ray Diagrams, Lenses and Mirrors
1-Intro to vectors & scalars | One-dimensional motion
2-Calculating average velocity or speed | One-dimensional motion
3-Solving for time | One-dimensional motion
4-Displacement from time and velocity example | One-dimensional motion
5-Acceleration | One-dimensional motion
18-Would a brick or feather fall faster?
19-Deriving displacement as a function of time, acceleration, and initial velocity
24-Visualizing vectors in 2 dimensions
20-36 Projectile Motion (17 videos)
6-More on Newton's first law of motion
7-Newton's second law of motion | Forces and Newton's laws of motion
8-Newton's third law of motion | Forces and Newton's laws of motion
37-40 Normal Force and Forces on an Inclined Plane
41-45 Static and Kinetic Friction
47-48 Tension Force
55-58 Work and energy
88-100 Pressure, Fluids, and Fluid Flow
101-105 Thermodynamics, Parts 1-5
106-107 Electrostatics and Electric Field
110 Electric Potential Energy
112-113 Voltage and Capacitance
115-117 Series and Parallel Circuits
121-128 Magnetic Forces and Fields
129-131 Electric Motors
132 - Induced Current in a Wire
136-137 Waves
138-141 Doppler Effect
145-149 Refraction, Snell's Law, Total Internal Reflection
150-158 Ray Diagrams, Lenses and Mirrors
Slice of Physics (Whiteboard Lessons)
Slice101-Numbers, Units, Sci Notation
Slice102-Unit Conversion
Slice103-Motion Diagram
Slice104-Distance scalar and Displacement vector
Slice105-Speed scalar and velocity vector
Slice106-Position-time graph concepts and example
Slice107-Velocity-time graph concepts and example
Slice108-Uniform motion graphs and equations
Slice109-Uniform motion example displacement, velocity, time
Slice110-Constant-acceleration motion graphs and equations
Slice 111-Acceleration and speed, directions of acceleration and velocity
Slice112-Interpret velocity time graph for constant-acceleration motion
Slice113-Equations of constant acceleration motion
Slice114-Constant acceleration motion example
Slices 115-116-Free Fall Examples
Slices 117-120-Vectors and Vector Addition
Slices 122-124-Motion on an Incline and Projectile Motion
Slices 126-129 & 134 Introduction to Forces and Newton's Laws of Motion
Slices 130-133 identifying Forces and Drawing Free-Body Force Diagrams
Slices 164-166 Work and Energy
Slice101-Numbers, Units, Sci Notation
Slice102-Unit Conversion
Slice103-Motion Diagram
Slice104-Distance scalar and Displacement vector
Slice105-Speed scalar and velocity vector
Slice106-Position-time graph concepts and example
Slice107-Velocity-time graph concepts and example
Slice108-Uniform motion graphs and equations
Slice109-Uniform motion example displacement, velocity, time
Slice110-Constant-acceleration motion graphs and equations
Slice 111-Acceleration and speed, directions of acceleration and velocity
Slice112-Interpret velocity time graph for constant-acceleration motion
Slice113-Equations of constant acceleration motion
Slice114-Constant acceleration motion example
Slices 115-116-Free Fall Examples
Slices 117-120-Vectors and Vector Addition
Slices 122-124-Motion on an Incline and Projectile Motion
Slices 126-129 & 134 Introduction to Forces and Newton's Laws of Motion
Slices 130-133 identifying Forces and Drawing Free-Body Force Diagrams
Slices 164-166 Work and Energy