Add to ORKGWe apply the variable speed of light into general relativity in order to solve the problems we met in the standard cosmology. We're surprised to find that, the results from the general relativity in cosmology are exactly the same as those we got from Newtonian dynamics. The relation between the Newtonian dynamics and the relativistic dynamics can be demonstrated with the variable speed of light. With this approach, some problems in the standard cosmology such as the flatness problem and the horizon problem doesn't arise any more. All the cosmological results and the physical results are reasonable and natural. There are no any difficulties in the standard cosmology
We have found exact constant solutions for the cosmological density parameter using a generalization...
AbstractWe consider scalar–tensor theory for describing varying speed of light in a spatially flat F...
We consider a hypothetical possibility of the variability of light velocity with time and position i...
We study cosmologies in the Randall-Sundrum models, incorporating the possibility of time-varying sp...
A variable Speed of Light is supported by the fact that all direct measurements of that speed are ba...
The answer to the title's question relies on Einstein's other (General) theory of Relativity as well...
A variable speed of light (VSL) cosmology is described in which the causal mechanism of generating p...
We consider the cosmological implications of light travelling faster in the early Universe. We propo...
Variable-speed-of-light (VSL) cosmologies are currently attracting interest as an alternative to inf...
Variable-speed-of-light (VSL) cosmologies are currently attracting much interest as a possible alter...
AbstractWe consider f(R) modified gravity theories for describing varying speed of light in a spatia...
AbstractWe contrast features of simple varying speed of light (VSL) cosmologies with inflationary un...
ABSTRACT: We show how the theory of relativity disagrees with the isotropy of the expanding universe...
In modelling the cosmic expansion, the conformal cosmology (CC) has several advantages over the stan...
We consider the problem of variable-constants cosmologies in the contest of a radical geometrical in...
We have found exact constant solutions for the cosmological density parameter using a generalization...
AbstractWe consider scalar–tensor theory for describing varying speed of light in a spatially flat F...
We consider a hypothetical possibility of the variability of light velocity with time and position i...
We study cosmologies in the Randall-Sundrum models, incorporating the possibility of time-varying sp...
A variable Speed of Light is supported by the fact that all direct measurements of that speed are ba...
The answer to the title's question relies on Einstein's other (General) theory of Relativity as well...
A variable speed of light (VSL) cosmology is described in which the causal mechanism of generating p...
We consider the cosmological implications of light travelling faster in the early Universe. We propo...
Variable-speed-of-light (VSL) cosmologies are currently attracting interest as an alternative to inf...
Variable-speed-of-light (VSL) cosmologies are currently attracting much interest as a possible alter...
AbstractWe consider f(R) modified gravity theories for describing varying speed of light in a spatia...
AbstractWe contrast features of simple varying speed of light (VSL) cosmologies with inflationary un...
ABSTRACT: We show how the theory of relativity disagrees with the isotropy of the expanding universe...
In modelling the cosmic expansion, the conformal cosmology (CC) has several advantages over the stan...
We consider the problem of variable-constants cosmologies in the contest of a radical geometrical in...
We have found exact constant solutions for the cosmological density parameter using a generalization...
AbstractWe consider scalar–tensor theory for describing varying speed of light in a spatially flat F...
We consider a hypothetical possibility of the variability of light velocity with time and position i...