LEADER 00796oam 2200193z- 450 001 996387265503316 005 20200818220838.0 035 $a(CKB)4940000000083617 035 $a(EEBO)2240884396 035 $a(EXLCZ)994940000000083617 100 $a20191209c1640uuuu -u- - 101 0 $aeng 200 14$aThe opportunitie a comedy, as it was presented by Her Majesties servants, at the private house in Drury Lane | written by Iames Shirley 210 $aIreland$cPrinted for Andrew Crooke, and are to be sold at the Castle gate in Dublin 700 $aShirley$b James$0195674 906 $aBOOK 912 $a996387265503316 996 $aThe opportunitie a comedy, as it was presented by Her Majesties servants, at the private house in Drury Lane | written by Iames Shirley$92307610 997 $aUNISA LEADER 01184nam0 2200289 450 001 000031892 005 20220315141539.0 010 $a978-88-6611-620-2 100 $a20180522d2017----km-y0itay50------ba 101 0 $aita 102 $aIT 105 $ay-------001yy 200 1 $a<>rischio nel diritto dell'Unione europea$etra pincipi di precauzione, proporzionalità e standardizzazione$fSara Pugliese 210 $aBari$cCacucci$dc2017 215 $aXII, 214 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$acr$2rdacarrier 200 10$aTheory of gyroscopic effects for rotating objects $egyroscopic effects and applications /$fRyspek Usubamatov 205 $aSecond edition. 210 1$aCham, Switzerland :$cSpringer,$d[2022] 210 4$d©2022 215 $a1 online resource (297 pages) 311 08$aPrint version: Usubamatov, Ryspek Theory of Gyroscopic Effects for Rotating Objects Cham : Springer International Publishing AG,c2022 9783030992125 320 $aIncludes bibliographical references (pages 290-291). 327 $aIntro -- Preface -- Contents -- About the Author -- Nomenclature -- 1 Gyroscopic Effects in Engineering -- 1.1 A Short History of Gyroscopic Effects and Applications in Engineering -- 1.2 Basic Principles of Engineering Mechanics for the Theory of Gyroscopic Effects -- References -- 2 Acceleration Analysis of Rotating Objects -- 2.1 Acceleration Analysis of a Rotating Object Around a Fixed Point -- 2.2 Inertial Torque Acting on a Rotating Object -- 2.2.1 Case Study 1 -- 2.2.2 Case Study 2 -- 2.3 Analysis of Coriolis Acceleration of a Rotating Object -- 2.3.1 Coriolis Acceleration for Uniform Motions of an Object and a Rotating Disc -- 2.3.2 Coriolis Accelerations for Combinations of the Uniform and Accelerated Motions of the Object and the Disc -- 2.3.3 Working Example -- References -- 3 Inertial Forces and Torques Acting on Simple Spinning Objects -- 3.1 Centrifugal Forces and Torques Acting on a Spinning Disc -- 3.2 Coriolis Forces and Torques Acting on a Spinning Disc -- 3.3 The Change in the Angular Momentum of a Spinning Disc -- 3.4 Attributes of Inertial Torques Acting on a Spinning Disc -- 3.5 Working Example -- 3.6 Inertial Forces and Torques Acting on a Spinning Cylinder -- 3.6.1 Centrifugal Forces and Torques Acting on a Spinning Cylinder -- 3.6.2 Coriolis Forces and Torques Acting on a Spinning Cylinder -- 3.7 Inertial Forces and Torques Acting on a Spinning Thin Ring -- 3.7.1 Centrifugal Forces and Torques Acting on a Spinning Ring -- 3.7.2 Coriolis Forces and Torques Acting on a Spinning Thin Ring -- 3.7.3 Attributes of Inertial Torques Acting on a Spinning Thin Ring -- 3.7.4 Working Example -- References -- 4 Properties and Specifies of Gyroscopic Torques -- 4.1 Interrelations of Gyroscopic Torques -- 4.1.1 The Dependency of the Angular Velocities of Gyroscope Around Two Axes -- 4.1.2 Case Study and Practical Test. 327 $a4.1.3 Fundamental Principles of the Theory of Gyroscopic Effects -- 4.2 Mathematical Models for Motions of Gyroscopic Gimbals -- References -- 5 Mathematical Models for Motions of a Gyroscope Suspended from the Flexible Cord -- 5.1 Inertial Forces Acting on a Gyroscope -- 5.2 Mathematical Models for the Gyroscope Motions -- 5.2.1 The Limit of the Gyroscope Angular Velocity Around Axis of Motion -- 5.3 The Practical Test of Gyroscope Motions -- 5.3.1 Practical Tests of the Forces Acting on a Gyroscope -- References -- 6 Mathematical Models for Motions of a Gyroscope with One-Side Support -- 6.1 Motions of the Gyroscope with the Action of Frictional Forces -- 6.2 Mathematical Models for Gyroscope Motions -- 6.2.1 Case Study and Practical Tests -- 6.3 Physics of the Gyroscope "Anti-Gravity" Effects -- 6.3.1 Case Study 1 -- 6.3.2 Case Study 2 -- References -- 7 Mathematical Models for the Top Motions and Gyroscope Nutation -- 7.1 The Top Motions -- 7.1.1 Working Example -- 7.2 The Top Nutation -- 7.2.1 Working Example -- 7.3 The Gyroscope Nutation -- 7.3.1 Case Study and Practical Tests -- Appendix -- References -- 8 Physics of the Gyroscopic Effects of the Spinning Objects Inversion and Flight -- 8.1 Mathematical Models for the Tippe Top Inversion -- 8.1.1 Case Study and Working Example -- 8.2 Mathematical Models for a Spinning Object Cyclic Inversion at the Free Flight -- 8.2.1 Methodology -- 8.2.2 Case Study and Working Example -- 8.3 Physics of Boomerang Flight -- 8.3.1 Methodology -- References -- 9 Gyroscopic Effects of Deactivation of Inertial Forces -- 9.1 Deactivation of Gyroscopic Inertial Forces -- 9.1.1 Case Study and Practical Tests -- 9.1.2 Test of the Gyroscope on the Action of the Precession Torque -- 9.2 Physics of Deactivation of Gyroscopic Inertial Forces -- References. 327 $aAppendix A Mathematical Models for Inertial Forces Acting on Spinning Objects -- A.1 Inertial Forces and Torques Acting on a Spinning Sphere -- A.1.1 Centrifugal Forces Acting on a Spinning Sphere -- A.1.2 Coriolis Forces Acting on a Spinning Sphere -- A.1.3 Attributes of the Inertial Torques Acting on the Spinning Sphere -- A.1.4 Working Example -- A.2 Inertial Forces Acting on a Spinning Circular Cone -- A.2.1 Centrifugal Forces Acting on a Spinning Cone -- A.2.2 Coriolis Forces Acting on a Spinning Cone -- A.2.3 Attributes of the Inertial Torques Acting on a Spinning Cone -- A.2.4 Working Example -- A.3 Inertial Torques Acting on a Spinning Paraboloid -- A.3.1 Centrifugal Forces of the Spinning Paraboloid -- A.3.2 Coriolis Forces Acting on a Spinning Paraboloid -- A.3.3 Attributes of the Inertial Torques Acting on the Spinning Paraboloid -- A.3.4 Working Example -- A.4 Inertial Forces Acting on Spinning Propellers -- A.4.1 Centrifugal Forces Acting on a Spinning Propeller -- A.4.2 Coriolis Forces Acting on a Spinning Propeller -- A.4.3 Attributes of the Inertial Torques Acting on a Spinning Propeller -- A.4.4 Working Example -- A.5 Inertial Forces Acting on a Spinning Gas Turbine -- A.5.1 Centrifugal Forces Acting on Blades of a Spinning Gas Turbine -- A.5.2 Coriolis Forces Acting on Blades of a Spinning Gas Turbine -- A.5.3 Attributes of the Inertial Torques Acting on a Spinning Gas Turbine -- A.5.4 Working Example -- References -- Appendix B Applications of Gyroscopic Effects in Engineering -- B.1 Gyroscopic Torques Acting on an Airplane Propeller -- B.2 Gyroscopic Torques Acting on a Motorcycle Rounding a Curve -- B.3 Gyroscopic Torques Acting on Crushing Mills -- B.4 Gyroscopic Torques Acting on a Rotor with Counter-Weight -- B.5 Gyroscopic Torques Acting on a Ship -- B.6 Forces Acting on the Rolling Disc and Motion on the Flat Surface. 327 $aB.6.1 Working Example -- B.7 Gyroscopic Torques Acting on Car Wheels Rounding a Curve -- B.8 Gyroscopic Forces Acting on a Bearing of an Electric Motor for the Railway Carriage Rounding a Curve -- B.8.1 Working Example -- B.9 Gyroscopic Torques Acting on a Spinning Disc with Fixed Support -- References. 606 $aRotational motion (Rigid dynamics) 606 $aMechanics 606 $aEngineering mathematics 615 0$aRotational motion (Rigid dynamics) 615 0$aMechanics. 615 0$aEngineering mathematics. 676 $a531.11 700 $aUsubamatov$b Ryspek$0953468 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 912 $a9910739461703321 996 $aTheory of Gyroscopic Effects for Rotating Objects$92155935 997 $aUNINA