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Liénard–Wiechert potentials


Define β in terms of the velocity of a point charge at time t as:

and unit vector û as

where R is the vector joining the observation point P to the moving charge q at the time of observation. Then the Liénard–Wiechert potentials consist of a scalar potential Φ and a vector potential A. The scalar potential is:[1]

where the tilde ~ denotes evaluation at the retarded time ,

c being the speed of light and rO being the location of the particle on its trajectory.

The vector potential is:

With these potentials the electric field and the magnetic flux density are found to be (dots over symbols are time derivatives):[1]


Notes

  1. 1.0 1.1 Fulvio Melia (2001). “§4.6.1 Point currents and Liénard-Wiechert potentials”, Electrodynamics. University of Chicago Press, pp. 101. ISBN 0226519570. 

Feynman Belušević Gould Schwartz Schwartz Oughstun Eichler Müller-Kirsten Panat Palit Camara Smith classical distributed charge Florian Scheck Radiation reaction Fulvio Melia Radiative reaction Fulvio Melia Barut Radiative reaction Distributed charges: history Lorentz-Dirac equation Gould Fourier space description