Nonconservative Stability Problems of Modern Physics
De Gruyter (Verlag)
978-3-11-027034-1 (ISBN)
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This work gives a complete overview on the subject of nonconservative stability from the modern point of view. Relevant mathematical concepts are presented, as well as rigorous stability results and numerous classical and contemporary examples from mechanics and physics. It deals with both finite- and infinite-dimensional nonconservative systems and covers the fundamentals of the theory, including such topics as Lyapunov stability and linear stability analysis, Hamiltonian and gyroscopic systems, reversible and circulatory systems, influence of structure of forces on stability, and dissipation-induced instabilities, as well as concrete physical problems, including perturbative techniques for nonself-adjoint boundary eigenvalue problems, theory of the destabilization paradox due to small damping in continuous circulatory systems, Krein-space related perturbation theory for the MHD kinematic mean field α²-dynamo, analysis of Campbell diagrams and friction-induced flutter in gyroscopic continua, non-Hermitian perturbation of Hermitian matrices with applications to optics, and magnetorotational instability and the Velikhov-Chandrasekhar paradox. The book serves present and prospective specialists providing the current state of knowledge in the actively developing field of nonconservative stability theory. Its understanding is vital for many areas of technology, ranging from such traditional ones as rotor dynamics, aeroelasticity and structural mechanics to modern problems of hydro- and magnetohydrodynamics and celestial mechanics.
Oleg N. Kirillov, Helmholtz-Zentrum, Dresden-Rossendorf, Germany.
lt;p>Introduction. Historical overview
Chapter 1. Lyapunov stability and linear stability analysis
Chapter 2. Sources of linear equations with parameters
Chapter 3. Typical classes of systems: Hamiltonian systems
Chapter 4. Typical classes of systems: reversible systems
Chapter 5. Characteristic polynomial and dispersion relation
Chapter 6. Influence of structure of forces on stability
Chapter 7. The Ziegler-Bottema paradox in near-reversible systems
Chapter 8. Near-Hamiltonian systems
Chapter 9. Non-self-adjoint boundary eigenvalue problems for differential operators and operator matrices dependent on parameters
Chapter 10. Destabilization paradox in distributed circulatory systems
Chapter 11. MHD mean field alpha-2 dynamo
Chapter 12. Campbell diagrams and wave propagation in rotating continua
Chapter 13. Non-Hermitian perturbations of Hermitian operators and crystal optics
Chapter 14. Magnetorotational instability
Chapter 15. Non-conservative systems with kinematics constraints
Conclusion
References
Erscheint lt. Verlag | 18.6.2013 |
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Reihe/Serie | De Gruyter Studies in Mathematical Physics ; 14 |
Zusatzinfo | 109 b/w ill., 4 b/w tbl. |
Verlagsort | Berlin/Boston |
Sprache | englisch |
Maße | 170 x 240 mm |
Gewicht | 880 g |
Themenwelt | Naturwissenschaften ► Physik / Astronomie ► Theoretische Physik |
Schlagworte | aerodynamics • Control • Mechanics • Nonconservative Systems • Nonself-adjoint Operators • Physics • Robotics • Stabilität • stability • Stability problems • Stability Problems; Mechanics; Dimensional non-conservative Systems; Robotics • Stability Problems; Mechanics; Dimensional nonconservative Systems; Robotics • Stability Problems; Mechanics; Nonconservative Systems; Nonself-adjoint Operators |
ISBN-10 | 3-11-027034-X / 311027034X |
ISBN-13 | 978-3-11-027034-1 / 9783110270341 |
Zustand | Neuware |
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