Add to ORKGThe validity of the Weak Equivalence Principle relative to a local inertial frame is detailed in a scalar-vector gravitation model with Lorentz-Poincar\'e type interpretation. Given the previously established first Post-Newtonian concordance of dynamics with General Relativity, the principle is to this order compatible with GRT. The gravitationally modified Lorentz transformations, on which the observations in physical coordinates depend, are shown to provide a physical interpretation of \emph{parallel transport}. A development of ``geodesic'' deviation in terms of the present model is given as well
We propose the almost-geodesic motion of self-gravitating test bodies as a possible selection rule a...
We study modified theories of gravity of the f(R) type in Palatini formalism. For a generic f(R) lag...
In classical mechanics, the Galilean covariance and the principle of relativity are completely equiv...
In this paper, it is shown that tho Lorentz transformation is almost Deducible from the principle of...
In this paper we scrutinize the so called Principle of Local Lorentz Invariance (PLLI) that many aut...
Modern formulations of equivalence principles provide the foundation for an efficient approach to un...
We discuss what we take to be three possible misconceptions in the foundations of general relativity...
Ever since the work of von Ignatowsky circa 1910 it has been known (if not always widely appreciated...
In Einstein's general relativistic description of gravitation, geometry replaces the concept of forc...
This thesis focusses on three main aspects of the foundations of any theory of gravity where the gra...
We explore the consequences of Lorentz noninvariance (LNI) for the Eötvös experiments in several mod...
It is shown that the extra coordinate of 5D induced-matter and membrane theory is related in certain...
We highlight and resolve what we take to be three common misconceptions in general relativity, relat...
General Relativity (GR) has been extremely successful experimentally. However there are several reas...
The equivalence principle between the gravitational motion and the inertial motion is fals...
We propose the almost-geodesic motion of self-gravitating test bodies as a possible selection rule a...
We study modified theories of gravity of the f(R) type in Palatini formalism. For a generic f(R) lag...
In classical mechanics, the Galilean covariance and the principle of relativity are completely equiv...
In this paper, it is shown that tho Lorentz transformation is almost Deducible from the principle of...
In this paper we scrutinize the so called Principle of Local Lorentz Invariance (PLLI) that many aut...
Modern formulations of equivalence principles provide the foundation for an efficient approach to un...
We discuss what we take to be three possible misconceptions in the foundations of general relativity...
Ever since the work of von Ignatowsky circa 1910 it has been known (if not always widely appreciated...
In Einstein's general relativistic description of gravitation, geometry replaces the concept of forc...
This thesis focusses on three main aspects of the foundations of any theory of gravity where the gra...
We explore the consequences of Lorentz noninvariance (LNI) for the Eötvös experiments in several mod...
It is shown that the extra coordinate of 5D induced-matter and membrane theory is related in certain...
We highlight and resolve what we take to be three common misconceptions in general relativity, relat...
General Relativity (GR) has been extremely successful experimentally. However there are several reas...
The equivalence principle between the gravitational motion and the inertial motion is fals...
We propose the almost-geodesic motion of self-gravitating test bodies as a possible selection rule a...
We study modified theories of gravity of the f(R) type in Palatini formalism. For a generic f(R) lag...
In classical mechanics, the Galilean covariance and the principle of relativity are completely equiv...