No part of meteorology has any training or experience with
electromagnetic field theory, or the generation and propagation of electromagnetic flux in a dispersive media such as Earth's atmosphere.
In this model, neutrons and protons are made up of triplets of quarks, and the gluons that bind protons and neutrons together (equivalent to photons in
electromagnetic field theory) are made of pairs of quarks.
For his fellowship dissertation on Maxwell's
electromagnetic field theory, 11 as well as his first two scientific publications on special problems of the hydrodynamics of incompressible fluids12 testify to an at least open relationship to problems of mathematical physics.
Not exact matches
Also, this
theory has been applied to the oscillator of empty space: oscillators of
electromagnetic field radiation.
In that case, the generalization began with the accepted scientific view regarding the
electromagnetic field of activity pervading space and time, and rose beyond the limits of that physical
theory to posit the ontological framework which the
theory itself presupposes.
Briefly, Whitehead initially (in works published circa 1919 - 1924) objected to Einstein's formulation of the
theory of relativity on the grounds that for Einstein the geometry of the world was variable, its metric being a function of gravitational and
electromagnetic field variables.
Einstein's formation of the
theory of relativity states that the geometry of the world is variable, its metric being a function of gravitational and
electromagnetic field variables.
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McLuhan saw a hot culture cooling down by the unified
field theories of physics that have their practical application in
electromagnetic communications.
The notion of an
electromagnetic field propagating in a vacuum is meaningful precisely because it is part of an elaborate physical
theory which has numerous well - confirmed observable implications.
He cites as an example Maxwell's
electromagnetic theory with its postulated electric and magnetic
fields propagating in a vacuum.
In fact, at the time of Maxwell's death, his
theory of
electromagnetic fields was not yet widely accepted or even well known; experts still argued about whether electricity and magnetism propagated their effects via «action at a distance,» as gravity (supposedly) did, or by Michael Faraday's «lines of force» (incorporated by Maxwell into his
fields).
In the 1930s, quantum
theory grew to become quantum
field theory, in which both electrons and
electromagnetic particles, or photons, are represented as infinite sums over waves.
Both strong and weak
electromagnetic forces are understood using renormalisable quantum
field theories based on QED as a prototype.
«One of the great recent achievements of modern physics is a quantum
field theory in which weak and
electromagnetic interactions are understood to arise from a common symmetry.
nitpick: Quantum Gravity would be a gauge
field theory, presumably abelian, with the gauge boson being the graviton, similar to Quantum Electrodynamics with the
electromagnetic field and the photon.