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Theory of gyroscopic effects for rotating objects = gyroscopic effects and applications /

Record Type:	Language materials, printed : Monograph/item
Title/Author:	Theory of gyroscopic effects for rotating objects/ by Ryspek Usubamatov.
Reminder of title:	gyroscopic effects and applications /
Author:	Usubamatov, Ryspek.
Published:	Cham :Springer Nature Switzerland : : 2025.,
Description:	xviii, 313 p. :ill. (some col.), digital ; : 24 cm.;
Contained By:	Springer Nature eBook
Subject:	Rotational motion (Rigid dynamics) -
Online resource:	https://doi.org/10.1007/978-3-031-74201-9
ISBN:	9783031742019

Theory of gyroscopic effects for rotating objects = gyroscopic effects and applications /
Usubamatov, Ryspek.

Theory of gyroscopic effects for rotating objectsgyroscopic effects and applications /[electronic resource] :by Ryspek Usubamatov. - Third edition. - Cham :Springer Nature Switzerland :2025. - xviii, 313 p. :ill. (some col.), digital ;24 cm.

Preface -- Abstract -- Nomenclature -- Gyroscopic effects in engineering -- Acceleration analysis of rotating object -- Inertial forces acting on simple spinning objects -- Properties and specifies of gyroscopic torques -- Mathematical models for motions of a gyroscope suspended from the flexible cord -- Mathematical models for motions of a gyroscope with one side support -- Mathematical models for the top motions and gyroscope nutation -- Gyroscopic effects of deactivation of inertial forces -- Appendix A -- Appendix B.

This book highlights an analytical solution for the dynamics of axially rotating objects. It also presents the theory of gyroscopic effects, explaining their physics and using mathematical models of Euler's form for the motion of movable spinning objects to demonstrate these effects. The major themes and approaches are represented by the spinning disc and the action of the system of interrelated inertial torques generated by the centrifugal and Coriolis forces, as well as the change in the angular momentum. The interrelation of inertial torques is based on the dependency of the angular velocities of the motions of the spinning objects around axes by the principle of mechanical energy conservation. These kinetically interrelated torques constitute the fundamental principles of the mechanical gyroscope theory that can be used for any rotating objects of different designs, like rings, cones, spheres, paraboloids, propellers, etc. Lastly, the mathematical models for the gyroscopic effects are validated by practical tests. This book is highlighted in its already third edition. The new edition comprises many new sections for several chapters or new chapters. The most important ones are: Chapter 3 includes a mathematical model for the section inertia torques acting on the spinning annulus and thin ring. The latter does not have a full solution because the handbooks comprise simplified parameters that cannot be used for an exact solution. Chapter 4 offers mathematical model for the arbitrary disposition of the spinning object in space that shows the action of the additional four inertial torques acting on the third axis and new dependencies of gyroscope motions. Chapter 7 now presents mathematical model for the gyroscope nutation with a full solution. The known mathematical model presents a partial solution due to the complexity of the problem.

ISBN: 9783031742019

Standard No.: 10.1007/978-3-031-74201-9doiSubjects--Topical Terms:

1098389
Rotational motion (Rigid dynamics)

LC Class. No.: QA863

Dewey Class. No.: 531.34

Theory of gyroscopic effects for rotating objects = gyroscopic effects and applications /
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245 1 0 $a Theory of gyroscopic effects for rotating objects $h [electronic resource] : $b gyroscopic effects and applications / $c by Ryspek Usubamatov.
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505 0 $a Preface -- Abstract -- Nomenclature -- Gyroscopic effects in engineering -- Acceleration analysis of rotating object -- Inertial forces acting on simple spinning objects -- Properties and specifies of gyroscopic torques -- Mathematical models for motions of a gyroscope suspended from the flexible cord -- Mathematical models for motions of a gyroscope with one side support -- Mathematical models for the top motions and gyroscope nutation -- Gyroscopic effects of deactivation of inertial forces -- Appendix A -- Appendix B.
520 $a This book highlights an analytical solution for the dynamics of axially rotating objects. It also presents the theory of gyroscopic effects, explaining their physics and using mathematical models of Euler's form for the motion of movable spinning objects to demonstrate these effects. The major themes and approaches are represented by the spinning disc and the action of the system of interrelated inertial torques generated by the centrifugal and Coriolis forces, as well as the change in the angular momentum. The interrelation of inertial torques is based on the dependency of the angular velocities of the motions of the spinning objects around axes by the principle of mechanical energy conservation. These kinetically interrelated torques constitute the fundamental principles of the mechanical gyroscope theory that can be used for any rotating objects of different designs, like rings, cones, spheres, paraboloids, propellers, etc. Lastly, the mathematical models for the gyroscopic effects are validated by practical tests. This book is highlighted in its already third edition. The new edition comprises many new sections for several chapters or new chapters. The most important ones are: Chapter 3 includes a mathematical model for the section inertia torques acting on the spinning annulus and thin ring. The latter does not have a full solution because the handbooks comprise simplified parameters that cannot be used for an exact solution. Chapter 4 offers mathematical model for the arbitrary disposition of the spinning object in space that shows the action of the additional four inertial torques acting on the third axis and new dependencies of gyroscope motions. Chapter 7 now presents mathematical model for the gyroscope nutation with a full solution. The known mathematical model presents a partial solution due to the complexity of the problem.
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