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This book gives a simplified account of a new fundamental theory of
physics. It is based on two postulates (or laws) and from these are
derived a set of Field Equations. The solutions of these equations
account for many of the features of modern physics. These solutions
lead to the prediction of Newton's laws of motion and gravitation,
Coulomb's law and electromagnetism, and the prediction of the
values of the gravitational constant and the charge on the electron
which are close to the measured values. They also lead to a formula
for Plank's constant, and to Schr dinger's equation and the basis
for quantum mechanics. Particles are not points. Structures are
proposed for the proton, neutron, electron, electron neutrino,
muon, pion and kaons. The theory provides an account of the up,
down, strange, charm and bottom quarks and the W^+/- and Z
particles. The book is mathematical, but simplified as much as
possible to make the book accessible to a wide range of readers.
A Theory of Fields is a new approach to a unifying fundamental
theory of physics. It is based on just two postulates from which
gravity and electricity emerge as fundamental concepts, resulting
in a set of Field Equations. The book develops solutions of these
equations and, in so doing, accounts for the existence of
fundamental particles and derives the principles of classical
mechanics, quantum mechanics, electromagnetism and gravitation.
Travelling wave solutions lead to the existence and properties of
photons. Models are proposed for the proton, neutron, kaon, pion,
muon, electron and electron neutrino leading to the prediction of
their shapes, sizes, inertial masses and internal structures.
Predicted values for the gravitational constant and charge of the
electron agree with the measured values within less than 20%. Many
other topics in modern physics are also dealt with in the context
of the new theory, including the nuclear force, the weak force and
quarks.
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