Physics

A More Complicated Friction Inclined Plane Problem
Force with Vectors
Newton's Laws and Vectors
Amplitude, Period, Frequency and Wavelength of Periodic Waves
Friction on an Inclined Plane
Newton's Laws Problems - Part 1
Calculating Dot and Cross Products
Gravitation
Newton's Laws Problems - Part 2
Calculus Proof that a= v^2/r
Harmonic Motion - Part 2 (Calculus)
Newton's Laws
Capacitance
Harmonic Motion - Part 3 (No Calculus)
Newton's second Law of Motion
Center of Mass
Introduction to Springs and Hooke's Law
Newton's Third Law of Motion
Centripetal Acceleration - Part 2
Introduction to Angular Velocity
Optimal Angle for a Projectile - Part 1
Centripetal Acceleration - Part 3
Introduction to Centripetal Acceleration
Optimal Angle for a Projectile - Part 2
Circuits - Part 1
Introduction to Friction
Optimal Angle for a Projectile - Part 3
Circuits - Part 2
Introduction to Harmonic Motion
Optimal Angle for a Projectile - Part 4
Circuits - Part 3
Introduction to Mechanical Advantage
Potential Energy Stored in a Spring
Circuits - Part 4
Introduction to Momentum
Projectile Motion - Part 1
Conservation of Angular Momemtum
Introduction to Motion - Part 1
Projectile Motion - Part 2
Conservation of Energy
Introduction to Motion - Part 2
Projectile Motion - Part 3
Cross Product 1
Introduction to Motion - Part 3
Projectile Motion - Part 4
Cross Product 2
Introduction to Newton's law of Gravitation
Projectile Motion - Part 5
Cross Product and Torque
Introduction to Tension
Projectile Motion - Part 6
2 Dimensional Momentum Problem - Part 1
Introduction to the Doppler Effect
Projectile Motion - Part 7
2 Dimensional Momentum Problem - Part 2
Introduction to Torque
Projectile Motion - Part 8
2 Dimensional Projectile Motion - Part 1
Introduction to Waves
Projectile Motion - Part 9
2 Dimensional Projectile Motion - Part 2
Introduction to Work and Energy
Projectile Motion - Part 10
2 Dimensional Projectile Motion - Part 3
Mach Numbers
Projectile Motion with Ordered Set Notation
2 Dimensional Projectile Motion - Part 4
Magnetism 1
Projectile Motion with Unit Vectors - Part 1
2 Dimensional Projectile Motion - Part 5
Magnetism 2
Projectile Motion with Unit Vectors - Part 2
Doppler Effect Formula for Observed Frequency
Magnetism 3
Proof (Advanced) Field from infinite plate - Part 1
Doppler Effect Formula when Source is Moving Away
Magnetism 4
Proof (Advanced) Field from infinite plate - Part 2
Dot vs Cross Product
Magnetism 5
Spring Potential Energy Example
Electric Potential Energy
Magnetism 6
Tension in an Accelerating System and Pie in the face
Electric Potential Energy - Part 2
Magnetism 7
Tension - Part 2
Electrostatics - Part 1
Magnetism 8
The Dot Product
Electrostatics - Part 2
Magnetism 9
Thermodynamics - Part 1
Fluids - Part 1
Magnetism 10
Thermodynamics - Part 2
Fluids - Part 2
Magnetism 11
Thermodynamics - Part 3
Fluids - Part 3
Magnetism 12
Thermodynamics - Part 4
Fluids - Part 4
Mass on an Inclined Plane
Thermodynamics - Part 5
Fluids - Part 5
Mechanical Advantage - Part 2
Unit Vector Notation - Part 1
Fluids - Part 6
Mechanical Advantage - Part 3
Unit Vector Notation - Part 2
Fluids - Part 7
Moments - Part 1
Visual Proof a= v^2/r
Fluids - Part 8
Moments - Part 2
Voltage
Fluids - Part 9
Momentum Ice Skater Throws a Ball
When Source and Wave Move at the Same Velocity
Fluids - Part 10
Moving Pulley Problem - Part 1
Work Energy Problem with Friction
Fluids - Part 11
Moving Pulley Problem - Part 2
Work and Energy - Part 2
Fluids - Part 12
Newton's First Law of Motion