000			04282nam a2200469 i 4500
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003			IOP
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006			m eo d
007			cr cn |||m|||a
008			180111s2017 enka ob 000 0 eng d
020			_a9780750313988 _qebook
020			_a9780750314008 _qmobi
020			_z9780750313995 _qprint
040			_aCaBNVSL _bgre _eAACR2 _cGR-PaULI _dGR-PaULI
082	0	4	_a531 _223
100			_aLikharev, K. K. _q(Konstantin Konstantinovich), _eσυγγραφέας. _9173403
245	1	0	_aClassical mechanics : _blecture notes / _cKonstantin K. Likharev.
260			_aBristol : _bIOP Publishing, _cc2017.
300			_a1 ηλεκτρονική πηγή (ποικίλη σελιδαρίθμηση) : _bέγχρ. εικ.
490	1		_aIOP expanding physics, _x2053-2563
490	1		_aEssential advanced physics
504			_aΠεριλαμβάνει βιβλιογραφικές παραπομπές.
505	0		_a1. Review of fundamentals -- 1.1. Kinematics : basic notions -- 1.2. Dynamics : Newton's laws -- 1.3. Conservation laws -- 1.4. Potential energy and equilibrium -- 1.5. OK, we've got it--can we go home now? -- 1.6. Problems
505	8		_a2. Lagrangian analytical mechanics -- 2.1. Lagrange equations -- 2.2. Three simple examples -- 2.3. Hamiltonian function and energy -- 2.4. Other conservation laws -- 2.5. Problems
505	8		_a3. A few simple problems -- 3.1. One-dimensional and 1D-reducible systems -- 3.2. Equilibrium and stability -- 3.3. Hamiltonian 1D systems -- 3.4. Planetary problems -- 3.5. Elastic scattering -- 3.6. Problems
505	8		_a4. Rigid-body motion -- 4.1. Translation and rotation -- 4.2. Inertia tensor -- 4.3. Fixed-axis rotation -- 4.4. Free rotation -- 4.5. Torque-induced precession -- 4.6. Non-inertial reference frames -- 4.7. Problems
505	8		_a5. Oscillations -- 5.1. Free and forced oscillations -- 5.2. Weakly nonlinear oscillations -- 5.3. Reduced equations -- 5.4. Self-oscillations and phase-locking -- 5.5. Parametric excitation -- 5.6. Fixed-point classification -- 5.7. Numerical approaches -- 5.8. Higher harmonic and subharmonic oscillations -- 5.9. Problems
505	8		_a6. From oscillations to waves -- 6.1. Two coupled oscillators -- 6.2. N coupled oscillators -- 6.3. 1D waves -- 6.4. Acoustic waves -- 6.5. Standing waves -- 6.6. Wave decay and attenuation -- 6.7. Nonlinear and parametric effects -- 6.8. Problems
505	8		_a7. Deformations and elasticity -- 7.1. Strain -- 7.2. Stress -- 7.3. Hooke's law -- 7.4. Equilibrium -- 7.5. Rod bending -- 7.6. Rod torsion -- 7.7. 3D acoustic waves -- 7.8. Elastic waves in restricted geometries -- 7.9. Problems
505	8		_a8. Fluid mechanics -- 8.1. Hydrostatics -- 8.2. Surface tension effects -- 8.3. Kinematics -- 8.4. Dynamics : ideal fluids -- 8.5. Dynamics : viscous fluids -- 8.6. Turbulence -- 8.7. Problems
505	8		_a9. Deterministic chaos -- 9.1. Chaos in maps -- 9.2. Chaos in dynamic systems -- 9.3. Chaos in Hamiltonian systems -- 9.4. Chaos and turbulence -- 9.5. Problems
505	8		_a10. A bit more of analytical mechanics -- 10.1. Hamilton equations -- 10.2. Adiabatic invariance -- 10.3. The Hamilton principle -- 10.4. The Hamilton-Jacobi equation -- 10.5. Problems
505	8		_aAppendices. A. Selected mathematical formulas -- B. Selected physical constants.
520	3		_aEssential Advanced Physics' is a series comprising four parts: 'Classical Mechanics', 'Classical Electrodynamics', 'Quantum Mechanics' and 'Statistical Mechanics'. Each part consists of two volumes, Lecture Notes and Problems with Solutions, further supplemented by an additional collection of test problems and solutions available to qualifying university instructors. This volume, 'Classical Mechanics: Lecture Notes', is intended to be the basis for a one-semester graduate-level course on classical mechanics and dynamics, including the mechanics of continua, in particular deformations, elasticity, waves, and fluid dynamics.
650		0	_aΜηχανική _9245
650		0	_aΔυναμική _91065
830		0	_aIOP expanding physics.
830		0	_aEssential advanced physics.
856	4	0	_uhttp://iopscience.iop.org/book/978-0-7503-1398-8
942			_2ddc _cERS