Lecture Description
This lecture demonstrates how to derive the wave equation for waves on a string and uses it to calculate the phase velocity of this type of wave. It includes some qualitative demonstrations on how the phase velocity changes with both the mass per unit length of the string and the tension in it.
Course Index
- Elasticity 1: Stress and Strain
- Elasticity 2: Young's Modulus
- Elasticity 3: Moduli of Elasticity
- Elasticity 4: Elastic Limits
- Fluid Statics 1: Pressure and Density
- Fluid Statics 2: Static Pressure
- Fluid Statics 3: Pressure Gauges
- Fluid Statics 4: Buoyancy Force
- Fluid Dynamics 1: Fluid Flow
- Fluid Dynamics 2: Bernoulli's Equation
- Fluid Dynamics 3: Viscosity
- Oscillations 1: Derivation of Simple Harmonic Motion
- Oscillations 2: SHM Parameters
- Oscillations 3: Phasors
- Oscillations 4: Kinematics and Energy
- Oscillations 5: Pendulums
- Oscillations 6: Damped Oscillators
- Oscillations 7: Driven Oscillators
- Oscillations 8: Resonance
- Waves 1: Wave Types and Properties
- Waves 2: The Wave Equation
- Waves 3: Solving the Wave Equation
- Waves 4: Waves on a String
- Waves 5: Acoustic Waves
- Waves 6: Wave Intensity
- Waves 7: Superposition
- Waves 8: Interference
- Waves 9: Standing Waves
- Waves 10: The Doppler Effect
Course Description
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.
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