Steady motions of a rigid body with a control momentum gyroscope are studied versus the gimbal axis direction relative to the body and the magnitude of the system angular momentum. The study is based on a formula that gives a parametric representation of the set of the system steady motions in terms of the rotation angle of the gimbal. It is shown that, depending on the values of the parameters, the system has S, 12, or 16 steady motions and the number of stable motions is 2 or 4
A small gyroscope is balanced by a weight whose radius can be adjusted, as shown in Figure 1. When...
In the present work, the problem of the dynamical motion of a rigid body close to Lagrange’s gyrosco...
This paper investigates the three-dimensional rotary motion of a charged rigid body (gyrostat) about...
Equations of motion are obtained for a rigid body bearing N three-degree-of-freedom control momentum...
The set of steady motions of the system named in the title is represented parametrically via the gyr...
Conditions for the stability of motion of the spin axis of a two-degree-of-freedom (2DF) control mom...
The conditional stability of steady motions of a mechanical isolated system consisting of a rotating...
In the present article, the rotational motion of a symmetric rigid body (gyro) about a fixed point c...
A one-wheeled robot-gyrostat are modeled by a heavy round disk with a balanced rotating flywheel. Di...
A gyroscope, mounted in gimbal rings as shown in Figure 1 to isolate it from external torque, is mov...
The paper is concerned with connection of two gyros and one body hung by a string. The necessary sta...
The stability of motion of attitude maneuvers of a torque-free rigid gyrostat with a discrete damper...
Gyroscope devices are primary units for navigation and control systems in aviation and space enginee...
The orientation of a spacecraft can be changed efficiently by transferring angular momentum between ...
The study of the dynamic behavior of a rigid body with one fixed point (gyroscope) has a long histor...
A small gyroscope is balanced by a weight whose radius can be adjusted, as shown in Figure 1. When...
In the present work, the problem of the dynamical motion of a rigid body close to Lagrange’s gyrosco...
This paper investigates the three-dimensional rotary motion of a charged rigid body (gyrostat) about...
Equations of motion are obtained for a rigid body bearing N three-degree-of-freedom control momentum...
The set of steady motions of the system named in the title is represented parametrically via the gyr...
Conditions for the stability of motion of the spin axis of a two-degree-of-freedom (2DF) control mom...
The conditional stability of steady motions of a mechanical isolated system consisting of a rotating...
In the present article, the rotational motion of a symmetric rigid body (gyro) about a fixed point c...
A one-wheeled robot-gyrostat are modeled by a heavy round disk with a balanced rotating flywheel. Di...
A gyroscope, mounted in gimbal rings as shown in Figure 1 to isolate it from external torque, is mov...
The paper is concerned with connection of two gyros and one body hung by a string. The necessary sta...
The stability of motion of attitude maneuvers of a torque-free rigid gyrostat with a discrete damper...
Gyroscope devices are primary units for navigation and control systems in aviation and space enginee...
The orientation of a spacecraft can be changed efficiently by transferring angular momentum between ...
The study of the dynamic behavior of a rigid body with one fixed point (gyroscope) has a long histor...
A small gyroscope is balanced by a weight whose radius can be adjusted, as shown in Figure 1. When...
In the present work, the problem of the dynamical motion of a rigid body close to Lagrange’s gyrosco...
This paper investigates the three-dimensional rotary motion of a charged rigid body (gyrostat) about...