Add to ORKGThe equations of motion of a spinning body in the gravitational field of a much larger mass are found using both the Corinaldesi-Papapetrou spin supplementary condition (SSC) and the Pirani SSC. These equations of motion are compared with our previous result derived from Gupta\u27s quantum theory of Gravitation. It is found that the spin-dependent terms differ in each of the above three results due to a different location of the center of mass of the spinning body. As expected, these terms are not affected by the choice of either Schwarzschild or isotropic coordinates. Finally, for the presently planned Stanford gyroscope experiment, we find the maximum secular displacement of the orbit of the gyro with respect to the orbit of its non-rotat...
The equations of motion for the position and spin of a classical particle coupled to an external ele...
The equations of motion for the position and spin of a classical particle coupled to an external ele...
Galileo studied bodies falling under gravity and Tycho Brahe made extensive astronomical observation...
Using a non-singular gravitational potential which appears in the literature we analyti-cally derive...
Using a non-singular gravitational potential which appears in the literature we analytically derived...
Using a non-singular gravitational potential which appears in the literature we analyti- cally deri...
Using a non-singular gravitational potential which appears in the literature we analytically derived...
Using a non-singular gravitational potential which appears in the literature we analytically derived...
Using a non-singular gravitational potential which appears in the literature we analytically derived...
Abstract Recent interest on studying possible violations of the Equivalence Principle has led to the...
Previous work on the gravitational two-body problem is surveyed. Next, we present a new approach, wh...
Recent interest on studying possible violations of the Equivalence Principle has led to the develop...
We discuss the problem of defining the center of mass in general relativity and the so-called spin s...
On the bases of the Papapetrou equations with various supplementary conditions and other approaches ...
Based on the coupling between the spin of a particle and gravitoelectromagnetic field, the equation ...
The equations of motion for the position and spin of a classical particle coupled to an external ele...
The equations of motion for the position and spin of a classical particle coupled to an external ele...
Galileo studied bodies falling under gravity and Tycho Brahe made extensive astronomical observation...
Using a non-singular gravitational potential which appears in the literature we analyti-cally derive...
Using a non-singular gravitational potential which appears in the literature we analytically derived...
Using a non-singular gravitational potential which appears in the literature we analyti- cally deri...
Using a non-singular gravitational potential which appears in the literature we analytically derived...
Using a non-singular gravitational potential which appears in the literature we analytically derived...
Using a non-singular gravitational potential which appears in the literature we analytically derived...
Abstract Recent interest on studying possible violations of the Equivalence Principle has led to the...
Previous work on the gravitational two-body problem is surveyed. Next, we present a new approach, wh...
Recent interest on studying possible violations of the Equivalence Principle has led to the develop...
We discuss the problem of defining the center of mass in general relativity and the so-called spin s...
On the bases of the Papapetrou equations with various supplementary conditions and other approaches ...
Based on the coupling between the spin of a particle and gravitoelectromagnetic field, the equation ...
The equations of motion for the position and spin of a classical particle coupled to an external ele...
The equations of motion for the position and spin of a classical particle coupled to an external ele...
Galileo studied bodies falling under gravity and Tycho Brahe made extensive astronomical observation...