Aim of the course is to gives to the student the fundamentals of Electromagnetism, together with the ability to apply models to related concrete problems. |
Differential and integral calculus for multiple variable functions; vector calculus. |
- Electric field. Electric dipole – electric capacity and electric field energy
- Continuous currents: Ohm law – electric resistance
- Static magnetic field: magnetic field in vacuum – magnetic induction – Biot Savart law – Laplace law – Lorentz force – Ampere law – Hall effect
- Time dependent electric and magnetic fields: electromotive forces and induced currents – induction – energy of magnetic field –Maxwell equations – propagation of electromagnetic waves – Poynting vector
- Wave geometry and optical instruments – light and electromagnetic waves – interference and diffraction
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- Fundamental of Physics, D. Halliday, J. Walker, R. Resnick, Wiley 2007
- Physics, M. Alonso, E.J. Finn, H. Anton, Pearson-Prentice Hall, 1992
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Βοηθός/Καθηγητή Περιοχή Καθηγητή
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Λίστα μαγνητοσκοπημένων παραδόσεων |