This lecture solves for the motion of a harmonic oscillator which has a damping force applied. The result solutions are classified into one of three types and the motion for each discussed.

1. Elasticity 1: Stress and Strain
2. Elasticity 2: Young's Modulus
3. Elasticity 3: Moduli of Elasticity
4. Elasticity 4: Elastic Limits
5. Fluid Statics 1: Pressure and Density
6. Fluid Statics 2: Static Pressure
7. Fluid Statics 3: Pressure Gauges
8. Fluid Statics 4: Buoyancy Force
9. Fluid Dynamics 1: Fluid Flow
10. Fluid Dynamics 2: Bernoulli's Equation
11. Fluid Dynamics 3: Viscosity
12. Oscillations 1: Derivation of Simple Harmonic Motion
13. Oscillations 2: SHM Parameters
14. Oscillations 3: Phasors
15. Oscillations 4: Kinematics and Energy
16. Oscillations 5: Pendulums
17. Oscillations 6: Damped Oscillators
18. Oscillations 7: Driven Oscillators
19. Oscillations 8: Resonance
20. Waves 1: Wave Types and Properties
21. Waves 2: The Wave Equation
22. Waves 3: Solving the Wave Equation
23. Waves 4: Waves on a String
24. Waves 5: Acoustic Waves
25. Waves 6: Wave Intensity
26. Waves 7: Superposition
27. Waves 8: Interference
28. Waves 9: Standing Waves
29. Waves 10: The Doppler Effect

This video lecture series by Prof. Roger Moore from the University of Alberta includes both screencast lectures, as well as comprehensive laboratory experiments to explain a whole range of topics in fluid mechanics and wave motion. The lectures are all offered in HD quality.

Major topics include: elasticity, fluid statics, fluid dynamics, oscillations, and waves.