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This is the last book of three devoted to Mechanics, and uses the theoretical background presented in Classical Mechanics: Kinematics and Statics and Classical Mechanics: Dynamics. It focuses on exhibiting a unique approach, rooted in the classical mechanics, to study mechanical and electromagnetic processes occurring in Mechatronics. Contrary to the majority of the books devoted to Applied Mechanics, this volume places a particular emphasis on theory, modeling, analysis, and control of gyroscopic devices, including the military applications. This volume provides practicing…mehr

Produktbeschreibung
This is the last book of three devoted to Mechanics, and uses the theoretical background presented in Classical Mechanics: Kinematics and Statics and Classical Mechanics: Dynamics. It focuses on exhibiting a unique approach, rooted in the classical mechanics, to study mechanical and electromagnetic processes occurring in Mechatronics. Contrary to the majority of the books devoted to Applied Mechanics, this volume places a particular emphasis on theory, modeling, analysis, and control of gyroscopic devices, including the military applications. This volume provides practicing mechanical/mechatronic engineers and designers, researchers, graduate and postgraduate students with a knowledge of mechanics focused directly on advanced applications.
This is the final volume of a triad of works by Jan Awrejcewicz (this third book with Zbigniew Koruba) devoted to classical mechanics. Classical Mechanics: Mechanics and Mechatronics presents a unique approach to studying mechanical and electromagnetic processes occurring in applied mechanics and mechatronics with emphasis on theory, modeling, and analysis and control of gyropscopic devices, including military applications. This volume address a wide spectrum of graduate students, postgraduate students, researchers, and instructors from the field of mechanics, this volume, and has a strong focus on advanced applications that will be of particular use and interest to engineers and designers practicing in the mechanical/mechatronic industry.
Chapter 1 deals with dynamics in mechatronic systems. Dynamics of a rigid spherical body is studied in Chapter 2 with emphasis on applications. Chapters 3 and 4 are dedicated to the theory, evolution, and dynamics and control of the gyroscope and Chapter 5 focuses on gyroscopic control in the self-guidance systems of flying objects.
Autorenporträt
Jan Awrejcewicz is the 2011 winner of the Humboldt Prize. This award is granted from the Alexander von Humboldt Foundation in Germany. The award is based on a reasearcher's entire achievements to date, whose fundamental discoveries, new theories or insights have had significant impact on their own discipline and who are expected to continue producing cutting-edge achievements in the future. Prof. Awrejcewicz is also the main author of "Nonsmooth Dynamics of Contacting Thermoelastic Bodies", (c) 2009, Springer (AMMA v. 16), 978-0-387-09562-0. He is also the sole editor of "Modeling, Simulation and Control of Nonlinear Engineering Dynamical Systems", (c) 2009 Springer, 978-1-4020-8777-6.
Rezensionen
From the reviews:
"The book contains formulations, illustrations and discussions of dynamical and advanced mechanical problems. It is addressed to graduate and postgraduate students, and to researchers from mechanical and civil engineering and mechatronics. ... the book by Awrejcewicz is a valuable addition to the literature on the subject, and I highly recommend it for the courses on advanced dynamics for engineering students." (Teodor Atanackovic, zbMATH, Vol. 1270, 2013)