Non-time-orthogonal analysis of rotating frames is applied to objects in gravitational orbits and found to be internally consistent. The object's surface speed about its axis of rotation, but not its orbital speed, is shown to be readily detectable by any "enclosed box" experimenter on the surface of such an object. Sagnac type effects manifest readily, but by somewhat subtle means. The analysis is extended to objects bound in non-gravitational orbit, where it is found to be fully in accord with the traditional analysis of Thomas precession
New techniques to evaluate the clock effect using light are described. These are based on the flatne...
After recalling the rigorous mathematical representations in Relativity Theory (RT) of (i) observers...
URL:http://link.aps.org/doi/10.1103/PhysRevA.79.062111 DOI:10.1103/PhysRevA.79.062111Electrodynamic...
The Thomas precession is calculated using three different transformations to the rotating frame. It ...
Using a non-singular gravitational potential which appears in the literature we analytically derived...
We consider the optical Sagnac effect, when the fictitious gravitational field simulates the reflect...
The paper considers the problem of finding the metric of space time around a rotating, weakly gravit...
Although there is no relative motion among different points on a rotating disc, each point belongs t...
We consider an isotropical inertial reference frame (“stationary”) and in it a uniformly rotating ci...
By proper co-ordinates of non-inertial observers (shortly- proper non-inertial co-ordinates) we unde...
We review the Thomas precession exhibiting the exact form of the Thomas rotation in the axis-angle ...
Traditional clock synchronisation on a rotating platform is shown to be incompatible with the experi...
doi: 10.1088/0264-9381/25/22/225003We consider bound geodesic orbits of test masses in the exterior ...
Employing a relativistic rotational transformation to study and analyze rotational phenomena, instea...
We start with the premise that an inertial frame is defined as one that isn’t accelerating in the us...
New techniques to evaluate the clock effect using light are described. These are based on the flatne...
After recalling the rigorous mathematical representations in Relativity Theory (RT) of (i) observers...
URL:http://link.aps.org/doi/10.1103/PhysRevA.79.062111 DOI:10.1103/PhysRevA.79.062111Electrodynamic...
The Thomas precession is calculated using three different transformations to the rotating frame. It ...
Using a non-singular gravitational potential which appears in the literature we analytically derived...
We consider the optical Sagnac effect, when the fictitious gravitational field simulates the reflect...
The paper considers the problem of finding the metric of space time around a rotating, weakly gravit...
Although there is no relative motion among different points on a rotating disc, each point belongs t...
We consider an isotropical inertial reference frame (“stationary”) and in it a uniformly rotating ci...
By proper co-ordinates of non-inertial observers (shortly- proper non-inertial co-ordinates) we unde...
We review the Thomas precession exhibiting the exact form of the Thomas rotation in the axis-angle ...
Traditional clock synchronisation on a rotating platform is shown to be incompatible with the experi...
doi: 10.1088/0264-9381/25/22/225003We consider bound geodesic orbits of test masses in the exterior ...
Employing a relativistic rotational transformation to study and analyze rotational phenomena, instea...
We start with the premise that an inertial frame is defined as one that isn’t accelerating in the us...
New techniques to evaluate the clock effect using light are described. These are based on the flatne...
After recalling the rigorous mathematical representations in Relativity Theory (RT) of (i) observers...
URL:http://link.aps.org/doi/10.1103/PhysRevA.79.062111 DOI:10.1103/PhysRevA.79.062111Electrodynamic...