Quantum electrodynamics is indeed one of the most accurate of all the theories of physics.    From Wordnik.com.  [Nobel Prize in Physics 1965 - Presentation Speech] Reference

Since the nature and manner of this transmission can be followed up in all its details, the demand that Gauss made for a theory of electrodynamics is fulfilled.    From Wordnik.com.  [Hendrik A. Lorentz - Nobel Lecture] Reference

Only someone who has sacrificed himself by teaching himself quantum electrodynamics from a peculiar and unusual point of view; one that he may have to invent for himself.    From Wordnik.com.  [Richard P. Feynman - Nobel Lecture] Reference

Thirdly, Maxwell's electrodynamics, as corroborated by.    From Wordnik.com.  [Dictionary of the History of Ideas] Reference

The theory that describes this is quantum electrodynamics.    From Wordnik.com.  [Everything You Ever Wanted to Know About Quantum Mechanics, But Were Afraid to Ask] Reference

Another my topic was quantum electrodynamics at high energies.    From Wordnik.com.  [Alexei A. Abrikosov - Autobiography] Reference

His work became one of the foundations of quantum electrodynamics.    From Wordnik.com.  [The Nations Highest Science And Technology Honors Awarded] Reference

QED - quantum electrodynamics, in all its 12-digit precision glory.    From Wordnik.com.  [Higgs 101] Reference

In 1965, he was awarded the Nobel Prize for work in quantum electrodynamics.    From Wordnik.com.  [How Nobel Prizewinners Get That Way] Reference

So, all of classical electrodynamics was contained in this very simple form.    From Wordnik.com.  [Richard P. Feynman - Nobel Lecture] Reference

There were several suggestions for interesting modifications of electrodynamics.    From Wordnik.com.  [Richard P. Feynman - Nobel Lecture] Reference

Atom interferometry tests of local Lorentz invariance in gravity and electrodynamics.    From Wordnik.com.  [arxiv Find: Atom interferometry tests of local Lorentz invariance] Reference

I guess I knew every way to modify quantum electrodynamics known to man, at the time.    From Wordnik.com.  [Richard P. Feynman - Nobel Lecture] Reference

Feynman used more radical methods for solving the problems of quantum electrodynamics.    From Wordnik.com.  [Nobel Prize in Physics 1965 - Presentation Speech] Reference

A similar situation exists with electrodynamics, and quantization removes these problems.    From Wordnik.com.  [A Dark, Misleading Force] Reference

That is, I believe there is really no satisfactory quantum electrodynamics, but I'm not sure.    From Wordnik.com.  [Richard P. Feynman - Nobel Lecture] Reference

This completes the story of the development of the space-time view of quantum electrodynamics.    From Wordnik.com.  [Richard P. Feynman - Nobel Lecture] Reference

Recent work on electrodynamics supported the conclusion that electricity was a wave phenomenon.    From Wordnik.com.  [Hermann von Helmholtz] Reference

It was also easy to guess how to modify the electrodynamics, if anybody ever wanted to modify it.    From Wordnik.com.  [Richard P. Feynman - Nobel Lecture] Reference

This represents a most stringent test of the atomic theory known as quantum electrodynamics (QED).    From Wordnik.com.  [The Nobel Prize in Physics 1989 - Presentation Speech] Reference

You must see your system as a portrait in electrodynamics, one that is common throughout the Realm.    From Wordnik.com.  [Asimov's Science Fiction]

This then was the hoped-for solution to the problem of ridding classical electrodynamics of the infinities.    From Wordnik.com.  [Richard P. Feynman - Nobel Lecture] Reference

Further applications of QFT outside of quantum electrodynamics succeeded in nuclear physics (strong interaction).    From Wordnik.com.  [Quantum Field Theory] Reference

One, I knew many different ways of formulating classical electrodynamics, with many different mathematical forms.    From Wordnik.com.  [Richard P. Feynman - Nobel Lecture] Reference

So, he forced the quantum electrodynamics of the day to give him an answer to the separation of these two levels.    From Wordnik.com.  [Richard P. Feynman - Nobel Lecture] Reference

He discussed quantum mechanics with Bohr, relativity with Einstein, and electrodynamics with his student, Feynman.    From Wordnik.com.  [The measure of a man] Reference

There are many university scientists throughout the world who are working on the underlying stochastic electrodynamics.    From Wordnik.com.  [Chapter 4] Reference

By the end of the 1870's, the experimental basis of electrodynamics had been established, but mathematics lagged behind.    From Wordnik.com.  [Hermann von Helmholtz] Reference

I did three months of research in anatomy, surgery, criminology, ancient and modern burial customs, and electrodynamics.    From Wordnik.com.  [Jack Pierce] Reference

If you wanted an unmodified electrodynamics, you would have to take a equal to zero, getting an infinite mass correction.    From Wordnik.com.  [Richard P. Feynman - Nobel Lecture] Reference

Even years later in the 1880's, it was still almost impossible to find a teacher who comprehended Maxwell's electrodynamics.    From Wordnik.com.  [Chapter 4] Reference

The fourth paper was an analysis of the electrodynamics of moving bodies that used a modification of the theory of space and time.    From Wordnik.com.  [Dan Agin: Book Review: Why Does E=MC^2?] Reference

In short, it turned out that I managed, without any complicated mathematics, to sort out some problems of quantum electrodynamics.    From Wordnik.com.  [Vitaly L. Ginzburg - Autobiography] Reference

Tomonaga managed to give a new formulation of quantum electrodynamics and other similar theories, which marked an important progress.    From Wordnik.com.  [Nobel Prize in Physics 1965 - Presentation Speech] Reference

So, it was possible, also, to change the theory in a simple manner and to still agree with all observations of classical electrodynamics.    From Wordnik.com.  [Richard P. Feynman - Nobel Lecture] Reference

His main sphere of work during this period was in the field of nonlinear electrodynamics, which he developed in collaboration with Infeld.    From Wordnik.com.  [Max Born - Biography] Reference

Such a simple form could represent all of classical electrodynamics, which aside from gravitation is essentially all of classical physics.    From Wordnik.com.  [Richard P. Feynman - Nobel Lecture] Reference

All I knew was that meson theory was something analogous to electrodynamics, except that particles corresponding to the photon had a mass.    From Wordnik.com.  [Richard P. Feynman - Nobel Lecture] Reference

Also, the prevailing electrodynamics theories of the time were action-at-a-distance models, such as those of Karl Friedrich Gauss and later by Wilhelm Weber.    From Wordnik.com.  [Chapter 4] Reference