The Electromagnetic Theory is The Conservation of Electromagnetic Fields:
0= XE= (d/dr + Del)(Es + Ev) = (dEs/dr - Del.Ev) + (dEv/dr + Del Es + DelxEv)
The electric fields are related E = cB = zH = zcD where z is the free space impedance and z and c are electric universal constants.
James Clerk Maxwell came up with the Theory of Electromagnetic Radiation.He stated that, "When electrically charged particle moves under acceleration, alternating electrical and magnetic fields are produced and transmitted in the forms of waves called electromagnetic waves or electromagnetic radiation."This is the Theory of Electromagnetic Radiation.
Alfred O'Rahilly has written: 'Electromagnetic theory' 'Electromagnetics' -- subject(s): Electromagnetic theory
Georges Lucas has written: 'Transfer theory for trapped electromagnetic energy' -- subject(s): Electromagnetic theory, Electromagnetic waves, Energy transfer, Mathematical models, Transmission, Transport theory
John R. Reitz has written: 'Foundations of electromagnetic theory' -- subject(s): Electromagnetic theory
electromagnetic theory
Donald G. Dudley has written: 'Mathematical foundations for electromagnetic theory' -- subject(s): Electromagnetic theory, Mathematics
Faraday's Theory of Electromagnetic Induction.
Charles Emerson Curry has written: 'Electromagnetic theory of light' -- subject(s): Physical optics, Electromagnetic theory, Light
James Clerk Maxwell formulated the electromagnetic wave theory in the 19th century. His equations, known as Maxwell's equations, described how electric and magnetic fields interact and propagate through space as electromagnetic waves. This theory paved the way for our modern understanding of electromagnetism.
The Lorentz condition is important in electromagnetic field theory because it ensures that the electric and magnetic fields are consistent with each other and with the sources of the fields. It helps maintain the mathematical and physical integrity of the theory by imposing a constraint on the electromagnetic potentials.
Ivor Catt has written: 'Electromagnetic theory' -- subject(s): Electromagnetic theory 'Digital hardware design' -- subject(s): Digital electronics
wave theory of light