Theory of gyroscopic effects for rotating objects

Ryspek Usubamatov
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Abstract

Scientists began to study gyroscopic effects at the time of the Industrial Revolution. Famous mathematician L. Euler described only one gyroscopic effect, which is the precession torque that does not explain other ones. Since those times, scientists could not explain the physics of gyroscopic effects, Recent studies and the method of causal investigatory dependency demonstrated, that the nature of gyroscopic effects turned out that be more sophisticated than contemplated by researchers. The external torque acting on the spinning objects generates the system of the eight inertial torques and their interrelated motions around axes presented in the 3D coordinate system. The interrelated torques and motions of the spinning disc were described by mathematical models, and validated by practical tests that explain the physics of the gyroscopic effects based on the kinetic energy conservation law. The inertial torques generated by the centrifugal, and Coriolis forces, the change in the angular momentum, and the dependent motions of the spinning object around axes constitute the fundamental principles of the gyroscope theory. The derived gyroscopic theory opened a new chapter in the dynamics of rotating objects of classical mechanics that should be presented in all word encyclopedias.
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旋转物体的陀螺效应理论
科学家们在工业革命时期开始研究陀螺仪效应。著名数学家欧拉只描述了一种陀螺仪效应,即进动扭矩,它不能解释其他效应。从那时起,科学家们就无法解释陀螺仪效应的物理性质。最近的研究和因果调查依赖的方法表明,陀螺仪效应的性质比研究人员所设想的要复杂得多。作用在旋转物体上的外部力矩产生了八个惯性力矩及其相互关联的绕轴运动系统,并在三维坐标系中表示。用数学模型描述了旋转圆盘的相互关联的力矩和运动,并通过实际试验进行了验证,说明了基于动能守恒定律的陀螺仪效应的物理性质。由离心力和科里奥利力产生的惯性力矩、角动量的变化以及旋转物体绕轴的相关运动构成了陀螺仪理论的基本原理。由此衍生的陀螺仪理论为经典力学中旋转物体的动力学打开了一个新的篇章,它应该出现在所有的百科全书中。
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