Wiktionary
n. (context physics English) The phenomena associated with moving electric charges, and their interaction with electric and magnetic fields; the study of these phenomena.
WordNet
Wikipedia
Usage examples of "electrodynamics".
An illustration of its precision can be found in the work of Toichiro Kinoshita, a particle physicist from Cornell University, who has, over the last 30 years, painstakingly used quantum electrodynamics to calculate certain detailed properties of electrons.
It is known that Maxwell's electrodynamics - as usually understood at the present time - when applied to moving bodies, leads to asymmetries which do not appear to be inherent in the phenomena.
Between them, quantum electrodynamics and quantum chromodynamics provide a full description of the subatomic world down to the scale at which we are able to measure.
Mainly, because superstring theory includes gravity in a natural way, which quantum electrodynamics and quantum chromodynamics do not.
In analogy with quantum electrodynamics, physicists were able to construct quantum field theories for the strong and the weak forces, called quantum chromodynamics and quantum electroweak theory.
This circumstance, however, does not in the least diminish the conclusiveness of the experiment as a crucial test in favour of the theory of relativity, for the electrodynamics of Maxwell-Lorentz, on which the original theory was based, in no way opposes the theory of relativity.
During that first time in Brazil, which lasted six weeks, I was invited to give a talk at the Brazilian Academy of Sciences about some work in quantum electrodynamics that I had just done.
He all but rebuilt the theory of quantum electrodynamics and it was for this work that he shared the Nobel Prize in 1965.
His simplified rules of calculation became standard tools of theoretical analysis in both quantum electrodynamics and high-energy physics.
Kenneth Brewer once asked Freeman Dyson what it felt like when he had put together the puzzle of quantum electrodynamics and for a moment knew something that nobody else in the world knew.
Even Richard Feynman, winner of the Nobel prize in physics for his work in quantum electrodynamics, had maintained that nobody really understood quantum theory.
It exists in several dimensions including the subatomic quantum electrodynamics level of energy formation which we understand to require about ten dimensions, and sentience itself requires many of these dimensions.
It lives its brief solitary life, violating all the superstitions of quantum electrodynamics.