Add to ORKGWe present calculations of gyroscope precession in spacetimes described by Levi-Civita and Lewis metrics, under different circumstances. By doing so we are able to establish a link between the parameters of the metrics and observable quantities, providing thereby a physical interpretation for those parameters, without specifying the source of the field
The phenomenon of gyroscopic precession is studied within the framework of the Frenet-Serret formali...
International audienceThe Lewis solutions describe the exterior gravitational field produced by infi...
We study the phenomenon of gyroscopic precession and the analogues of inertial forces within the fra...
Using the technique of Rindler and Perlick we calculate the total precession per revolution of a gyr...
The geodesic equations are integrated for the Lewis metric and the effects of the different paramete...
The physical and geometrical meaning of the four parameters of Lewis metric for the Lewis class are ...
It is said that the vorticity of a congruence plays the role of rate of rotation for the precession ...
In General Relativity, the Principle of General Covariance allows one to describe phenomena by means...
In special relativity a gyroscope that is suspended in a torque-free manner will precess as it is mo...
ABSTRACT: In presence of a uniform gravitational field, Euler equations for a gyroscope can be writt...
We review the derivation of the metric for a spinning body of any shape and composition using linear...
In the main article [CQG 38 (2021) 055003], a new "canonical" form for the Lewis metrics of the Weyl...
To better understand the relationship between the expected precession rates of an orbiting gyroscope...
The physical and geometrical meaning of the four parameters of the Lewis metric for the Lewis class ...
Using a non-singular gravitational potential which appears in the literature we analytically derived...
The phenomenon of gyroscopic precession is studied within the framework of the Frenet-Serret formali...
International audienceThe Lewis solutions describe the exterior gravitational field produced by infi...
We study the phenomenon of gyroscopic precession and the analogues of inertial forces within the fra...
Using the technique of Rindler and Perlick we calculate the total precession per revolution of a gyr...
The geodesic equations are integrated for the Lewis metric and the effects of the different paramete...
The physical and geometrical meaning of the four parameters of Lewis metric for the Lewis class are ...
It is said that the vorticity of a congruence plays the role of rate of rotation for the precession ...
In General Relativity, the Principle of General Covariance allows one to describe phenomena by means...
In special relativity a gyroscope that is suspended in a torque-free manner will precess as it is mo...
ABSTRACT: In presence of a uniform gravitational field, Euler equations for a gyroscope can be writt...
We review the derivation of the metric for a spinning body of any shape and composition using linear...
In the main article [CQG 38 (2021) 055003], a new "canonical" form for the Lewis metrics of the Weyl...
To better understand the relationship between the expected precession rates of an orbiting gyroscope...
The physical and geometrical meaning of the four parameters of the Lewis metric for the Lewis class ...
Using a non-singular gravitational potential which appears in the literature we analytically derived...
The phenomenon of gyroscopic precession is studied within the framework of the Frenet-Serret formali...
International audienceThe Lewis solutions describe the exterior gravitational field produced by infi...
We study the phenomenon of gyroscopic precession and the analogues of inertial forces within the fra...