Truly Understand Physics!
Chad makes Physics understandable and enjoyable! Gain an intuitive understanding of physics and the laws of the universe will simply begin to make sense!

95 video lessons covering 25 chapters of General Physics (noncalculus based)

An 80page comprehensive set of outlines are provided with plenty of room for taking nofa

Summary of Physics Equations Cheatsheet

Practice Quizzes to Reinforce Learning

$5.00
$5.00Chad's Ultimate General Physics Review
30day Subscription (nonrecurring) 
$9.00
$9.00Chad's Ultimate General Physics Review
60day Subscription (nonrecurring) 
$12.00
$12.00Chad's Ultimate General Physics Review
90day Subscription (nonrecurring) 
$20.00
$20.00Chad's Ultimate General Physics Review
120day Subscription (nonrecurring)
Instructor(s)

Chad McAllister
Chad has been instructing science and prehealth students for close to two decades. He is continuously revising his lectures and practice materials to give the most efficient presentation of the material and to maximize student understanding.
Course curriculum

1
Outlines

2
Chapter 1  Units and Vectors

3
Chapter 2 – Motion in One Dimension

4
Chapter 3 – Motion in Two Dimensions

5
Chapter 4 – The Laws of Motion

6
Chapter 5 – Energy

7
Chapter 6 – Momentum and Collisions

8
Chapter 7 – Rotational Motion and the Law of Gravity

9
Chapter 8 – Rotational Equilibrium and Rotational Dynamics

10
Chapter 9 Solids and Fluids

11
Chapter 10  Gases

12
Chapters 11/12  Thermodynamics

13
Chapter 13  Oscillatory Motion and Waves

14
Chapter 14 Sound

15
Chapter 15 Electric Forces and Fields

16
Chapter 16 Electrical Energy and Capacitance

17
Chapter 17 Current and Resistance

18
Chapter 18 Complex DirectCurrent (DC) Circuits

19
Chapter 19 Magnetism

20
Chapter 20 Induced Voltages and Inductance

21
Chapter 21 AlternatingCurrent (AC) Circuits and Electromagnetic Waves

22
Chapter 22 Reflection and Refraction of Light

23
Chapter 23 Mirrors and Lenses

24
Chapter 24 Wave Optics

25
Chapter 25 Quantum Physics

College Physics 2017 Complete Outlines [5] Physics Equation Cheat Sheet 
1.1 Units (2:03) FREE TRIAL Units Quiz (7 Questions) FREE TRIAL 1.2 Vectors (21:53) FREE TRIAL Vectors Quiz (7 Questions) FREE TRIAL 
2.1 Displacement, Velocity, and Acceleration (8:28) Displacement, Velocity, and Acceleration Quiz (5 questions) FREE TRIAL 2.2 Introduction to Kinematics Calculations (11:33) 2.3 Kinematics Calculations for Freely Falling Objects (7:30) Kinematics Calculations Quiz (7 Questions) FREE TRIAL 2.4 Diagrams of Position vs Time (4:57) FREE TRIAL 2.5 Diagrams of Velocity vs Time (7:19) FREE TRIAL Graphs of Displacement vs Time and Velocity vs Time Quiz (7 Questions) FREE TRIAL 
3.1 Relative Motion (6:09) 3.2 Projectile Motion in One and Two Dimensions (19:05) 3.3 Projectile Motion Example #2  Drop in height of a ball thrown by a pitcher (5:19) 3.4 Projectile Motion Example #3  Projectile Fired at a Building (6:02) Projectile Motion Quiz (2 Questions) 
4.1 Introduction to Forces, Fields, and Newton's Laws of Motion (7:08) 4.2 Introduction to Gravity, Normal Force, and Friction (8:38) 4.3 Examples Involving a Scale on an Elevator (11:50) 4.4 Examples Involving Pulling on a Horizontal Surface 9:25) Newton's Laws of Motion Quiz (31 Questions) 4.5 Examples Involving Inclined Planes (16:59) Inclined Planes Quiz (14 Questions) 4.6 Example Involving Tension (2:53) 4.7 Examples Involving Pulleys (11:26) Pulleys Quiz (17 Questions) Newton's Laws and Forces Summary Quiz (11 Questions) 
5.1 Work (18:15) Work Quiz (10 Questions) 5.2 Mechanical Energy (18:18) Mechanical Energy Quiz (10 Questions) 5.3 Springs (13:16) Springs Quiz (17 Questions) 5.4 Power (6:33) Power Quiz (5 Questions) 5.5 Work by a Varying Force (4:04) A Little Help 
6.1 Momentum and Impulse (10:51) Momentum and Impulse Quiz (11 Questions) 6.2 Introduction to Elastic, Inelastic, and Perfectly Inelastic Collisions (3:59) 6.3 Collisions Example #1  An Inelastic Collision (5:17) 6.4 Collisions Example #2  Exploding Fragments as a Perfectly Inelastic Collision in Reverse (8:09) 6.5 Collisions Example #3  Determining the Speed of a Bullet (9:14) Collisions Quiz (11 Questions) 
Sound Malfunction 7.1 Rotational Kinematics (14:43) 7.2 Centripetal Force and Acceleration (7:16) 7.3 Examples Involving Centripetal Force and Acceleration (12:42) 7.4 Gravity and Centripetal Force and Acceleration (12:23) 7.5 Kepler's Laws of Planetary Motion (8:37) 
8.1 Introduction to Torque and Rotational Inertia (9:34) 8.2 Torque for a Door on a Hinge (3:06) 8.3 Torque Problems for Systems in Equilibrium Example #1 (4:54) 8.4 Torque Problems for Systems in Equilibrium Example #2 (11:11) 8.5 Torque Problems for Systems in Equilibrium Example #3 (8:12) 8.6 Angular Momentum and Rotational Kinetic Energy (9:08) 
9.1 Elasticity of Solids (21:08) 9.2 Density and Pressure (12:52) 9.3 Manometers and Barometers (9:06) 9.4 Buoyancy and Archimedes' Principle (21:46) 9.5 The Hydraulic Jack (8:30) 9.6 HydrodynamicsLaminar Flow and The Equation of Continuity (7:51) 9.7 HydrodynamicsBernoulli's Equation (12:12) 
10.1 Pressure and Gas Laws (13:05) 10.2 The Combined Gas Law and Dalton's Law of Partial Pressures (6:26) 10.3 The Kinetic Model of Gases and the Perfect Gas Law (16:19) 10.4 Maxwell Distribution of Speeds (5:12) 
1 Introduction to the First Law of Thermodynamics (12:05) 2 Heat Capacities (11:27) 3 Internal Energy, Enthalpy, and CpCv (9:31) 4 Expansion Work (8:45) 5 Calculations and Derivations Involving Internal Energy and Enthalpy (14:48) 6 The 2nd and 3rd Laws of Thermodynamics and Entropy (7:03) 7 Entropy Changes During Expansion and Heating (14:59) 
13.1 Simple Harmonic Motion (SHM), Springs, and Pendulums (16:35) 13.2 The Frequency and Period of SHM (14:52) 13.3 Waves (12:35) 13.4 Standing Waves (11:01) Standing Waves Quiz (6 Questions) 
14.1 Wave Nature and Speed of Sound (7:37) 14.2 Sound Intensity and Intensity Level (6:19) 14.3 The Doppler Effect (7:13) 
15.1 Charge, Insulators, and Conductors (6:37) 15.2 Coulomb's Law (20:03) 15.3 Electric Fields (12:47) 15.4 Conductors in Electrostatic Equilibrium (4:01) 15.5 Gauss's Law and Electric Flux (13:50) 
16.1 Electric Potential and Potential Energy (20:59) 16.2 Capacitance and Parallel Plate Capacitors (13:08) 16.3 Capacitors in DC Circuits (17:13) 
17.1 Current and Ohm's Law (8:06) 17.2 Resistance (15:10) 17.3 Resistors in DC Circuits (21:47) 17.4 Voltmeters and Ammeters (2:44) DC Circuits Quiz (20 Questions) 
18.1 Sources of Emf (4:49) 18.2 Complex Circuits and Kirchoff's Rules (20:46) 18.3 RC Circuits (14:17) 
19.1 Introduction to Magnetic Fields (5:29) 19.2 Magnetic Force on a Charge in Motion (13:17) 19.3 Magnetic Force on a CurrentCarrying Wire (7:45) 19.4 Torque on a CurrentCarrying Loop (8:06) 19.5 Magnetic Field Due to a CurrentCarrying Wire (17:22) 19.6 Magnetic Field at the Center of a CurrentCarrying Loop (2:35) 19.7 Magnetic Field at the Center of a Solenoid (3:36) 19.8 Final Thoughts on Magnetism (2:18) A Little Help 
20.1 Introduction to Faraday's Law and Lenz's Law (6:39) 20.2 Application of Faraday's Law and Lenz's Law (19:53) 20.3 Motional Emf (11:53) 20.4 Generators, Motors, and Back Emf (9:29) 20.5 Mutual Inductance and Transformers (11:42) 20.6 SelfInductance (4:24) 20.7 RL Circuits (14:24) 
21.1 Rms Current and Voltage in AC Circuits (2:25) 21.2 Maxwell's Theory of Electromagnetism (6:58) 21.3 Introduction to Electromagnetic Radiation (13:32) 21.4 Energy, Power, and Intensity of Electromagnetic Waves (4:04) 21.5 The Doppler Effect (5:06) 21.6 The Polarization of Light (6:26) 
22.1 Plane Mirrors and the Law of Reflection (2:27) 22.2 Indexes of Refraction (3:20) 22.3 Snell's Law of Refraction (11:40) 22.4 Total Internal Reflection (3:35) Reflection and Refraction Quiz (7 Questions) 
23.1 Introduction to Sperical Mirrors and Thin Lenses 23.2 Concave (Converging) Mirrors 23.3 Convex (Diverging) Mirrors 23.4 Diverging Lenses 23.5 Converging Lenses 23.6 Calculations Involving Mirrors and Thin Lenses 23.7 Combinations of Lenses 23.8 Vision Correction 
24.1 DoubleSlit Interference (21:47) 24.2 Thin Film Interference (17:14) 24.3 Diffraction Gratings and SingleSlit Interference (4:47) 
25.1 Blackbody Radiation (5:44) 25.2 The Photoelectric Effect (10:39) 25.3 The Bohr Model of the Atom and Electronic Transitions (16:20) 25.4 The Compton Effect (3:38) 25.5 The DeBroglie Wavelength of Matter (4:42) 25.6 Wave Functions (1:38) 25.7 The Heisenberg Uncertainty Principle (3:30)