The videos below fall loosely into three categories: Summary (S) where I give a brief summary of the necessary formulae and concepts; Problems (P) where I show how to solve various problems, and Lecture (L) which are theoretical topics that I have found to be challenging for my students.

### Kinematics in 1 Dimension

- S. The Formulae You Need
- P. A Sports Car with a Constant Acceleration
- P. A Stone Thrown Downward
- P. Free Fall: max. height, time of flight, final velocity
- P. Graphical Representation of Displacement, Velocity, and Acceleration
- P. Car Accelerates Then Coasts
- P. The Average Speed

### Dynamics

### Linear Momentum and Center of Mass

- Problem. Ballistic Pendulum
- Lecture. Elastic Collisions – Algebra
- Lecture. Center of Mass of Half a Ring
- Lecture. Center of Mass of Half a Disk
- Lecture. Rocket Propulsion

### Rotation

### Vibrations and Waves

- L. Simple Harmonic Motion
- L. Damped Harmonic Oscillator
- L. Doppler Effect: Moving Source
- L. Doppler Effect: Moving Detector

### Electricity

- L. Uniformly Charged Ring
- L. Uniformly Charged Disk
- L. Gauss’ Law Part
- L. Gauss’ Law Application: Plane
- L. Gauss’ Law Applications – Point Charge
- L. Gauss’ Law Applications – Sphere