TY  - BOOK
AU  - Landau, L. D.
TI  - Mechanics
SN  - 9788181477866
U1  - 530 
PY  - 1976///
CY  - Oxford
PB  - Elsevier
KW  - Analytic mechanics
N1  - I. THE EQUATIONS OF MOTION
§1. Generalised co-ordinates
§2. The principle of least action
§3. Galileo's relativity principle
§4. The Lagrangian for a free particle
§5. The Lagrangian for a system of particles
II. CONSERVATION LAWS
§6. Energy
§7. Momentum
§8. Centre of mass
§9. Angular momentum
§10. Mechanical similarity
III. INTEGRATION OF THE EQUATIONS OF MOTION
§11. Motion in one dimension
§12. Determination of the potential energy from the period of
oscillation
§13. The reduced mass
§14. Motion in a central field
§15. Kepler's problem
IV. COLLISIONS BETWEEN PARTICLES
§16. Disintegration ofparticles
§17. Elastic collisions
§18. Scattering
§19. Rutherford's formula
§20. Small-angle scattering 
V. SMALL OSCILLATIONS
 §21. Free oscillations in one dimension 
§22. Forced oscillations 
§23. Oscillations of systems with more than one degree of freedom 
§24. Vibrations of molecules 
§25. Damped oscillations 
§26. Forced oscillations under friction 
§27. Parametric resonance gg
§28. Anharmonic oscillations 
§29. Resonance in non-linear oscillations 
§30. Motion in a rapidly oscillating field 
VI. MOTION OF A RIGID BODY
§31. Angular velocity 
§32. The inertia tensor 
§33. Angular momentum of a rigid body 
§34. The equations of motion of a rigid body 
§35. Eulerian angles HO
§36. Euler's equations 
§37. The asymmetrical top 
§38. Rigid bodies in contact 
§39. Motion in a non-inertial frame of reference 
VII. THE CANONICAL EQUATIONS
§40. Hamilton's equations 
§41. The Routhian 
§42. Poisson brackets 
§43. The action as a function of the co-ordinates 
§44. Maupertuis' principle 
§45. Canonical transformations * 
§46. Liouville's theorem 
§47. The Hamilton-Jacobi equation 
§48. Separation of the variables 
§49. Adiabatic invariants 
§50. Canonical variables 
§51. Accuracy of conservation of the adiabatic invariant 
§52. Conditionally periodic motion 
Index
ER  -