Lectures in STANDARD UNITS IN PHYSICS
- Lecture 1: Mks (Meters, Kilograms, Seconds)
- Lecture 3: Maritime And Imperial Unit "Equivalence" 1
- Lecture 4: Maritime And Imperial Unit "Equivalence" 2
- Lecture 5: Standard Units In Mechanics
- Lecture 6: Standard Units: Rotational Motion
- Lecture 7: Stress And Strarin
- Lecture 8: Units And Fluid
- Lecture 9: The Wave Equation
- Lecture 10: Sound
- Lecture 11: Heat
- Lecture 12: Specific Heat And Molar Heat Capacity
- Lecture 13: Conduction, Thermal Conductivity, R-Rating
- Lecture 14: The Ideal Gas Law
- Lecture 15: Unit Of Charge & Coulomb'S Law
- Lecture 16: The Electric Field
- Lecture 17: Electric P.E. & Electrical Potential
- Lecture 18: Electric Flux
- Lecture 19: Capacitance
- Lecture 20: Current, Resistivity, & Ohm'S Law
- Lecture 21: Magnetic Field
- Lecture 22: Magnetic Flux
- Lecture 23: Magnetic Field 2
- Lecture 24: Mutual & Self Inductance
- Lecture 25: Energy Stored In A Magnetic Field
- Lecture 26: Energy In A L-C Circuit
- Lecture 27: Reactance
- Lecture 28: Power Dissipated In A Resistor
- Lecture 29: Speed Of Light
- Lecture 30: E & M Waves
- Lecture 31: The Poynting Vector
- Lecture 32: Momentum Density Of E&M Waves
- Lecture 33: Flow Rate Of E&M Momentum
- Lecture 34: Energy In Special Relativity
- Lecture 35: Energy & Momentum In A Photon
- Lecture 36: The De Broglie Wavelength
- Lecture 37: Planck Radiation (Black Body Radiation)
- Lecture 38: Stefan Boltzmann Law
- Lecture 39: What Is An Electron Volt (Ev)?
- Lecture 40: What Is The Decay Rate?
- Lecture 41: What Is The Atomic Mass Unit?