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Electrodynamics

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Notes from Griffiths:

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Ch 1 - Vector Analysis [PDF]

• 1.1 - Vector Algebra [PDF]
• 1.2 - Differential Calculus [PDF]
• 1.3 - Integral Calculus [PDF]
• 1.4 - Curvilinear Coordinates [PDF]
• 1.5 - The Dirac Delta Function [PDF]
• 1.6 - The Theory of Vector Fields [PDF]

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Ch 2 - Electrostatics [PDF]

• 2.1 - The Electric Field, E [PDF]
• 2.2 - Divergence and Curl of E [PDF]
• 2.3 - Electric Potential, V [PDF]
• 2.4 - Work and Energy [PDF]
• 2.5 - Conductors [PDF]

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Ch 3 - Special Techniques [PDF]

• 3.1 - Laplace's Equation [PDF]
• 3.2 - The Method of Images [PDF]
• 3.3 - Separation of Variables [PDF]
• 3.4 - Multipole Expansion [PDF]

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Ch 4 - E in Matter [PDF]

• 4.1 - Polarization [PDF]
• 4.2 - E of a Polarized Object [PDF]
• 4.3 - E Displacement [PDF]
• 4.4 - Linear Dielectrics [PDF]

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Ch 5 - Magnetostatics [PDF]

• 5.1 - Lorentz F Law [PDF]
• 5.2 - Biot-Savart Law [PDF]
• 5.3 - Divergence and Curl of B [PDF]
• 5.4 - B Vector Potential, A [PDF]

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Ch 6 - B Fields in Matter [PDF]

• 6.1 - Magnetization, M [PDF]
• 6.2 - B of a M Object [PDF]

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HW #1 - Solutions [PDF]

HW #2 - Solutions [PDF]

Exam #1 [PDF]

Exam #1 - Solutions [PDF]

Exam #2 [PDF]

Exam #2 - Solution #1 | #2 | #3 | #4

Note: all of the files above are password protected.

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