Add to ORKGThe centrifugally induced electric field within a rotating metallic sphere is considered by utilizing the correspondence of gravitational acceleration to centrifugal acceleration. We consider a spherical rotor placed in an inhomogeneous electric field specially arranged to support the weight of the sphere. The torque on the rotor due to all electrical interactions is determined. From the magnitude of the resulting precession we may predict the value of the rotationally induced electric field. [...]Physics, Department o
Introduction Gyroscopes measure rotation of a platform with respect to an inertial system [1]. The c...
This paper investigates the three-dimensional rotary motion of a charged rigid body (gyrostat) about...
A comprehensive discussion and calculation of electrical torques on an electrostatic gyro as they re...
In 1960, L.I. Schiff observed that precise measurement of the precession of a spherical gyroscope or...
The motion of a gyroscope in a satellite orbiting the earth is considered. The axis of rotation of t...
The phenomenon of gyroscopic precession in the Ernst spacetime is studied within the framework of th...
We review the derivation of the metric for a spinning body of any shape and composition using linear...
Gyroscope devices are primary units for navigation and control systems in aviation and space enginee...
In special relativity a gyroscope that is suspended in a torque-free manner will precess as it is mo...
Using a non-singular gravitational potential which appears in the literature we analyti- cally deri...
The main property of gyroscopic devices is maintaining the axis of a spinning rotor, a mathematical ...
AbstractWe show that a heavy, magnetized and electrically charged asymmetric rigid body moving about...
Using a non-singular gravitational potential which appears in the literature we analyti-cally derive...
Vector displacements expressed in spherical coordinates are proposed. They correspond to electromagn...
We present a theoretical study of electrorotation ͑ER͒ of two spherical particles under the action o...
Introduction Gyroscopes measure rotation of a platform with respect to an inertial system [1]. The c...
This paper investigates the three-dimensional rotary motion of a charged rigid body (gyrostat) about...
A comprehensive discussion and calculation of electrical torques on an electrostatic gyro as they re...
In 1960, L.I. Schiff observed that precise measurement of the precession of a spherical gyroscope or...
The motion of a gyroscope in a satellite orbiting the earth is considered. The axis of rotation of t...
The phenomenon of gyroscopic precession in the Ernst spacetime is studied within the framework of th...
We review the derivation of the metric for a spinning body of any shape and composition using linear...
Gyroscope devices are primary units for navigation and control systems in aviation and space enginee...
In special relativity a gyroscope that is suspended in a torque-free manner will precess as it is mo...
Using a non-singular gravitational potential which appears in the literature we analyti- cally deri...
The main property of gyroscopic devices is maintaining the axis of a spinning rotor, a mathematical ...
AbstractWe show that a heavy, magnetized and electrically charged asymmetric rigid body moving about...
Using a non-singular gravitational potential which appears in the literature we analyti-cally derive...
Vector displacements expressed in spherical coordinates are proposed. They correspond to electromagn...
We present a theoretical study of electrorotation ͑ER͒ of two spherical particles under the action o...
Introduction Gyroscopes measure rotation of a platform with respect to an inertial system [1]. The c...
This paper investigates the three-dimensional rotary motion of a charged rigid body (gyrostat) about...
A comprehensive discussion and calculation of electrical torques on an electrostatic gyro as they re...