1. |
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Introduction & Vector Analysis 1
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Vector algebra, Differential calculus |
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2. |
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Vector Analysis 2
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Integral calculus, Curvilinear coordinates, The Dirac delta function |
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3. |
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Electrostatics 1
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Electric field, Divergence & curl of electrostatic fields, Electric potential |
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4. |
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Electrostatics 2
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Work and energy in electrostatics, Conductors |
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5. |
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Potentials 1
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Laplace equation, The method of images |
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6. |
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Potentials 2
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Separation of Variables, Multipole expansion |
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Potentials 2
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Separation of Variables, Multipole expansion |
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7. |
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Electric Fields in Matter 1
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Polarization, The field of a polarized object |
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8. |
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Midterm Exam.
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From Chapter 1 to Section 4.2 of Chapter 4 |
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9. |
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Electric Fields in Matter 2
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Electric displacement, Linear dielectrics |
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10. |
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Magnetostatics 1
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Lorentz force law, Biot-Savart law |
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11. |
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Magnetostatics 2
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Divergence & curl of B, Magnetic vector potential |
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12. |
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Magnetic fields in matter 1
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Magnetization, Field of a magnetized object |
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13. |
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Magnetic fields in matter 2
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Auxiliary field H, Linear & nonlinear media |
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14. |
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Electrodynamics 1
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Electromotive force, Electromagnetic induction |
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15. |
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Electrodynamics 2
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Maxwell’s equations, Boundary conditions |
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Final Examination
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From Chapter 4 to chapter 7 |
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