Biography
Biography: Ryspek Usubamatov
Abstract
The origin of the gyroscopic effects is more complex than represented in known theories. Recent investigations have demonstrated that the external torque applied on gyroscopes generates eight inertial torques acting interdependently and simultaneously around two axes. These torques are produced by the rotating the mass elements of the spinning disc and manifest the resistance and precession torques of the gyroscope. Gyroscopic inertial torques are generated by the centrifugal, common inertial, Coriolis forces and as well as the change in the angular momentum of the spinning rotor. Thee torques represent the fundamental principles of gyroscope theory. The interrelated action of several inertial forces on the gyroscope manifests phenomena of their deactivation. New mathematical models for the gyroscopic effects are validated by practical tests. It is proven that gyroscope’s precession velocities are variable. The action of the two external torques leads to the gyroscope’s turn up that proves no antigravity effect. The blocking of the precession motion of the gyroscope leads to the deactivation of the inertial forces of the resistance torques. At this condition, the running gyroscope turns down under the action of the gravity force. The action of centrifugal and Coriolis forces should manifest the resistance torques at the new condition. Nevertheless, practice demonstrates the deactivation of these forces that contradict to principles of physics. Phenomena of the deactivation of the inertial forces for the running gyroscope need a deep study of the physics of this property. Probably, there are other situations that manifest the deactivation of the inertial forces for the moving objects. This is a new challenge for the physics of mechanics.