He is not. He is famous for popularizing relativistic physics.
Constantin I. Mocanu has written: 'Hertzian Relativistic Electrodynamics and Its Associated Mechanics (Hadronic Press Series of Monographs in Physics)' 'Herzian relativistic electrodynamics and its associated mechanics' -- subject(s): Electrodynamics, Relativity (Physics)
Mainly:Mechanics (Newtonian & relativistic): - mater - time - space;Molecular physics & thermodynamics: - physics of thermal movement;Electromagnetism: - physics of E,H - field;Wave motion: - physics of sound, light, ..., solitons (tsunami);Quantum physics: physics of micro-world;High energy physics.
Newtonian physics, also called classical or pre-relativistic physics refer to the physics after Aristotelian physics and before the 1920s when the theory of relativity was formed. They distinctly differ from Aristotelian physics in that they cover the physics of motion, scientific method, describe contact and non-contact forces such as magnetism
The GUT or TOE "Theory of Everything" is the unification of Relativistic and Quantum Physics, probably via String Theory.
It's proportional to the frequency of the photon ... 6.63 x 10-34 joule per Hz.
The distinction is sometimes made to distinguish normal quantum mechanics (which does not incorporate special relativity) and quantum field theory (relativistic quantum mechanics). Since we know special relativity is correct it is the relativistic form of quantum mechanics which is true, but non-relativistic quantum mechanics is still used, because it is a good approximation at low energies and it is much simpler. Physics students typically study regular quantum mechanics before moving on to quantum field theory.
Wallace Kantor has written: 'Relativistic propagation of light' -- subject(s): Light, Measurement, Speed, Relativity (Physics), Doppler effect
The solutions will be extremely similar to what you would get for equations in Newtonian physics. At everyday speeds the deviation from Newtonian mechanics is negligible.
Carlos A. Bertulani has written: 'Neutron star crust' -- subject(s): Neutron stars, Stars, Structure 'Nuclear physics in a nutshell' 'Nuclear Physics in a Nutshell (In a Nutshell)' 'Electromagnetic processes in relativistic heavy ion collisions'
F. Rohrlich has written: 'Classical charged particles' -- subject(s): Particles (Nuclear physics) 'Relativistic particle electrodynamics' -- subject(s): Electrodynamics
The field of physics that studies the interactions between time and space is called spacetime physics or, more specifically, relativistic physics. This field encompasses Albert Einstein's theories of special relativity and general relativity, which describe the behavior of objects in relation to time, space, and gravity. It explores phenomena such as time dilation, length contraction, and the curvature of spacetime.