Physics Lectures York
Electromagnetism & Optics: Lecture 34 - Electromagnetic Field Tensor
Electromagnetism & Optics: Lecture 33 - Ferromagnetism
Electromagnetism & Optics Lecture 32: Magnetic Materials
Electromagnetism & Optics Lecture 20 part 1
Electromagetism & Optics Lecture 31: Magnetic Dipoles
Electromagnetism & Optics Lecture 30: Inside Dielectrics
Electromagnetism & Optics: Lecture 29
Electromagnetism & Optics: Lecture 28
Electromagnetism Lecture 27: Relativity and Electromagnetism
Electromagnetism and Optics - Lecture 25 continued: Field Energy and Poynting's Vector
24: Electromechanical Implications of Faraday's Law & Lecture 25: Field Energy & Poynting's Law
Electromagnetism and Optics - Lecture 22: Electrostatic Energy Cont.
Electromagnetism and Optics - Lecture 20: Polarization
Electromagnetism and Optics - Lecture 19: Refraction and Reflection of Light
Electromagnetism and Optics Lecture 19: Reflection and Refraction of Light (continued)
Electromagnetism and Optics - Lecture 18: Cornu's Spiral and Fresnel Diffraction
Electromagnetism and Optics - Lecture 17: The Fourier Transform and Fraunhofer Diffraction
Electromagnetism & Optics: Lecture 13 - Dipole Radiation
Electromagnetism and Optics - Lecture 16: Near-field and far-field diffraction
Electromagnetism and Optics - Lecture 15: Diffraction
Electromagnetism & Optics - Lecture 14: Interference
Electromagnetism & Optics - Lecture 12: Maxwell's Equations in Free Space
Electromagnetism and Optics - Lecture 11: The Speed of Light
Electromagnetism and Optics - Lecture 10: Ampere-Maxwell Law
Electromagnetism and Optics - Lecture 9: Charge Conservation
Electromagnetism and Optics - Lecture 8: Faraday's Law
Electromagnetism and Optics - Lecture 7: Induced Current
Electromagnetism and Optics - Lecture 6: The Biot-Savart Law
Electromagnetism and Optics - Lecture 5: The Vector Potential
Electromagnetism and Optics - Lecture 4 - Ampere's Law