Ryspek Usubamatov*

Kyrgyz State Technical University After I. Razzakov, Kyrgyzstan

*Corresponding Author:Ryspek Usubamatov, Kyrgyz State Technical University After I. Razzakov, Kyrgyzstan.

Received: January 07, 2022; Published: May 30, 2022

The phenomenon of gyroscopic effects attracted people since the time of the ancient civilizations. The unusual and unexplainable motions of the simple spinning top toy, boomerang, and other spinning objects astonished people. With the evolution of science, the intricated behavior of the rotating objects under the action of the unknown forces that named gyroscopic effects, did not leave without the attention of the physicists and mathematicians. However, the solution of the gyroscopic effects dragged to a couple of centuries and proved to be a solid nut for them. One gyroscopic effect is the side motion of the spinning disc under the action of precession torque was described by the mathematician L. Euler in 1725. His solution as the change in the angular momentum is presented in the contemporary world encyclopedias as the fundamental principle of gyroscope theory. He could describe the second gyroscopic effect based on the action of the centrifugal forces but did not do it for an unknown reason. Analytical solutions of other gyroscopic effects could not be defined in principle because they were based on the discoveries of the following century. The Coriolis acceleration (1835) and the physical laws of energies were formulated in the middle of the nineteenth century (1847). Finally, in 1905, Albert Einstein established the concept of “potential and kinetic energy” that was generalized into the form used today.