Relativity in complex spacetime
Abstract
general theory of Relativity has been developed on the basis of
a complexified spacetime and its scale equivalence principle. The results
are in agreement with the familiar Schwarzschild solution (as derived from
Einstein's relativity formulations) [Adler et el., (1965)]1 and with the well
confirmed Newtonian law of Gravitation.
On the very large scale, a composite curvature spacetime cosmological
model is obtained in which an Euclidean horizon replaces the Event
horizon in the determination of local scale evolution of spacetime.
The complexified relativistic formulation calls to question the constancy
of G (Newton's universal gravitational constant), the weak Cosmological
Principle which prescribes a requirement of homogeneity in the distribution
of cosmological matter [Narlikar, (1978)]2 , as well as the proper
meaning of the black hole radius. Finally, some quantum considerations
of gravity' as well as of the Big Bang are propounded as plausible physical
probabilities.
Citation
Doctor of Philosophy (Physics)Sponsorhip
University of NairobiPublisher
Department of physics, University of Nairobi