Electricity and Magnetism
		LECTURES
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	LECTURE NOTES Lecture 1 (1/14) - Vectors : Div, Grad, and Curl. Lecture 2 (1/16) - Curvilinear Coordinates Lecture 3 (1/17) - Integral Theorems Lecture 4 (1/18) - UPII Review Lecture 5 (1/23) - Coulomb's Law Lecture 6 (1/24) - Electric Dipoles and Superposition Lecture 7 (1/25) - Gauss' Law Lecture 8 (1/28) - Electric Dipole Mechanics and Electric Pressure Lecture 9 and 10 (1/30-1/31) Deriving Ampere's Law Lecture 11 (2/1) Magnetostatics Lecture 12 (2/6-2/7) Ampere's law Lecture 13 (2/8) Magnetic Force - Continued the tricky bit Lecture 14 (2/12-2/13) Faraday's Law Lecture 15 (2/14) EMF Examples Lecture 16 (2/15) Finishing Faraday Lecture 17 (2/18) Maxwell's Equations Lecture 18 (2/20) Potential Lecture 19 (2/21-2/22) Test 1 Review Lecture 20 (2/28-2/29) Energy Lecture 21 (3/3-3/5) Dipoles Lecture 22 (3/6-3/7) Conductors Lecture 23 (3/10) Polarization Lecture 24 (3/12) Displacement Lecture 25 (3/13) Capacitance I Lecture 26 (3/14) Capacitance II Lecture 27 (3/24) Magnitization Lecture 28 (3/26) Linear Magnetic Materials Lecture 29 (3/27) Inductance Lecture 30 (3/28) Magnetic Circuits and Hysteresis Lecture 31 (3/31) Uniqueness Lecture 32-33 (4/2-4/2) Review for Exam III Lecture 34 (4/10) Boundary Value Problems Lecture 35 (4/16) Cylindrical Coordinates Lecture 36 (4/17-4/18) Bessel Functions Lecture 37 (4-21 - 4-23) Spherical Systems Lecture 38 (4/24) Images I Lecture 39 (4/25) Images II Lecture 40 (4/28) Test 3 - Review 1 Lecture 41 (4/29) Test 3 - Review 2 Additional I - Fourier I Additional II - Fourier II Additional III - Conservation of Energy Additional IV - Conservation of Momentum - The Stress Tensor