Page "Scientific theory" Paragraph 74

In physics, the term theory is generally used for a mathematical framework — derived from a small set of basic postulates ( usually symmetries — like equality of locations in space or in time, or identity of electrons, etc.

)— which is capable of producing experimental predictions for a given category of physical systems.

A good example is classical electromagnetism, which encompasses results derived from gauge symmetry ( sometimes called gauge invariance ) in a form of a few equations called Maxwell's equations.

The specific mathematical aspects of classical electromagnetic theory are termed " laws of electromagnetism ," reflecting the level of consistent and reproducible evidence that supports them.

Within electromagnetic theory generally, there are numerous hypotheses about how electromagnetism applies to specific situations.

Many of these hypotheses are already considered to be adequately tested, with new ones always in the making and perhaps untested.

An example of the latter might be the radiation reaction force.

As of 2009, its effects on the periodic motion of charges are detectable in synchrotrons, but only as averaged effects over time.

Some researchers are now considering experiments that could observe these effects at the instantaneous level ( i. e. not averaged over time ).