Asian Journal of Scientific Research1992-14542077-2076Asian Network for Scientific Information10.3923/ajsr.2017.380.386UsubamatovRyspek 42017104Background and Objective: The gyroscope theory and effects are represented by numerous researchers, with mathematical models based on the law of kinetic energy conservation and the change in the angular momentum of a spinning rotor. The main objective of this study is to find the unknown properties of the gyroscope. Methodology: The nature of gyroscope effects is more complex and known mathematical models and theories do not match the actual motions of the gyroscope effects. Latest investigations of forces that involved in motions of a gyroscope demonstrate that there are four dynamical components, which act simultaneously and interdependently with others. These forces of classical mechanics are the centrifugal, Coriolis and inertial forces and the force generated by the change in the angular momentum of the spinning rotor. The action of mentioned forces is represented the fundamental principle of gyroscope theory. Results: The gyroscope with the external torque applied is experienced the resistance torque generated by the centrifugal and coriolis forces of the spinning rotor and the precession torque generated by the inertial forces and the change in the angular momentum. Formulated mathematical model for gyroscope motion is based on action of eight torques of about two axis and they are generated by the gyroscope internal kinetic energy. Conclusion: It is concluded that the new developed mathematical model for gyroscope validated the theoretical approach.]]>Hibbeler, R.C.,201012th Edn.,Pages: 655Pages: 655Deimel, R.F.,2003Greenhill, G.,2010Kang, J.,200951284294Quinn, T.J. and A. Picard,1990343732735Zhang, Z., J. Sun and K. Wu,20055634611618Usubamatov, R.,201423944Usubamatov, R.,20151660825826Lang, G.M., N. Bhuvanesh, J.H. Reibenspies and J.A. Gladysz,20163528732889