Author(s)

Golden Gadzirayi Nyambuya^*

Department of Applied Physics, National University of Science and Technology, Bulawayo, Republic of Zimbabwe.

The present reading is part of our on-going attempt at the foremost endeavour of physics since man began to comprehend the heavens and the earth. We present a much more improved Unified Field Theory of all the forces of Nature i.e. the gravitational, the electromagnetic, the weak and the strong nuclear forces. The proposed theory is a radical improvement of Professor Hermann Weyl’s supposedly failed attempt at a unified theory of gravitation and electromagnetism. As is the case with Professor Weyl’s theory, unit vectors in the proposed theory vary from one point to the next, albeit, in a manner such that they are—for better or for worse; compelled to yield tensorial affinities. In a separate reading, the Dirac equation is shown to emerge as part of the description of the these variable unit vectors. The nuclear force fields—i.e., electromagnetic, weak and the strong— together with the gravitational force field are seen to be described by a four-vector field A_μ, which forms part of the body of the variable unit vectors and hence the metric of spacetime. The resulting theory very strongly appears to be a logically consistent and coherent unification of classical and quantum physics and at the same time a grand unity of all the forces of Nature. Unlike most unification theories, the present proposal is unique in that it achieves unification on a fourdimensional continuum of spacetime without the need for extra-dimensions.

Electricity, Gravitation, Non-Riemann Geometry, Theory of Everything, Unified Field Theory, Weyl Unified Theory

Nyambuya, G. (2014) Unified Field Theory in a Nutshell—Elicit Dreams of a Final Theory Series. Journal of Modern Physics, 5, 1733-1766. doi: 10.4236/jmp.2014.516173.