Course of Theoretical Physics Vol- VI : Fluid Mechanics (Record no. 35269)
[ view plain ]
| 000 -LEADER | |
|---|---|
| fixed length control field | 06579nam a22001937a 4500 |
| 003 - CONTROL NUMBER IDENTIFIER | |
| control field | OSt |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER | |
| International Standard Book Number | 9788181477910 |
| 082 ## - DEWEY DECIMAL CLASSIFICATION NUMBER | |
| Classification number | 532 LAN-F |
| 100 ## - MAIN ENTRY--PERSONAL NAME | |
| Personal name | Landau, L D |
| 245 ## - TITLE STATEMENT | |
| Title | Course of Theoretical Physics Vol- VI : Fluid Mechanics |
| 250 ## - EDITION STATEMENT | |
| Edition statement | 2nd |
| 260 ## - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) | |
| Place of publication, distribution, etc | New Delhi |
| Name of publisher, distributor, etc | Elsevier |
| Date of publication, distribution, etc | 2014 |
| 300 ## - PHYSICAL DESCRIPTION | |
| Extent | 539p. |
| 500 ## - GENERAL NOTE | |
| General note | Preface to the English Edition<br/><br/>Notation<br/><br/>I. Ideal Fluids<br/><br/>§1. The Equation of Continuity<br/><br/>§2. Euler's Equation<br/><br/>§3. Hydrostatics<br/><br/>§4. The Condition that Convection is Absent<br/><br/>§5. Bernoulli's Equation<br/><br/>§6. The Energy Flux<br/><br/>§7. The Momentum Flux<br/><br/>§8. The Conservation of Circulation<br/><br/>§9. Potential Flow<br/><br/>§10. Incompressible Fluids<br/><br/>§11. The Drag Force in Potential Flow Past a Body<br/><br/>§12. Gravity Waves<br/><br/>§13. Long Gravity Waves<br/><br/>§14. Waves in an Incompressible Fluid<br/><br/>II. Viscous Fluids<br/><br/>§15. The Equations of Motion of a Viscous Fluid<br/><br/>§16. Energy Dissipation in an Incompressible Fluid<br/><br/>§17. Flow in a Pipe<br/><br/>§18. Flow between Rotating Cylinders<br/><br/>§19. The Law of Similarity<br/><br/>§20. Stokes Formula<br/><br/>§21. The Laminar Wake<br/><br/>§22. The Viscosity of Suspensions<br/><br/>§23. Exact Solutions of the Equations of Motion for a Viscous Fluid<br/><br/>§24. Oscillatory Motion in a Viscous Fluid<br/><br/>§25. Damping of Gravity Waves<br/><br/>III. Turbulence<br/><br/>§26. Stability of Steady Flow<br/><br/>§27. The Onset of Turbulence<br/><br/>§28. Stability of Flow between Rotating Cylinders<br/><br/>§29. Stability of Flow in a Pipe<br/><br/>§30. Instability of Tangential Discontinuities<br/><br/>§31. Fully Developed Turbulence<br/><br/>§32. Local Turbulence<br/><br/>§33. The Velocity Correlation<br/><br/>§34. The Turbulent Region and the Phenomenon of Separation<br/><br/>§35. The Turbulent Jet<br/><br/>§36. The Turbulent Wake<br/><br/>§37. Zhukovskii's Theorem<br/><br/>§38. Isotropic Turbulence<br/><br/>IV. Boundary Layers<br/><br/>§39. The Laminar Boundary Layer<br/><br/>§40. Flow Near the Line of Separation<br/><br/>§41. Stability of Flow in the Laminar Boundary Layer<br/><br/>§42. The Logarithmic Velocity Profile<br/><br/>§43. Turbulent Flow in Pipes<br/><br/>§44. The Turbulent Boundary Layer<br/><br/>§45. The Drag Crisis<br/><br/>§46. Flow Past Streamlined Bodies<br/><br/>§47. Induced Drag<br/><br/>§48. The Lift of a Thin Wing<br/><br/>V. Thermal Conduction in Fluids<br/><br/>§49. The General Equation of Heat Transfer<br/><br/>§50. Thermal Conduction in an Incompressible Fluid<br/><br/>§51. Thermal Conduction in an Infinite Medium<br/><br/>§52. Thermal Conduction in a Finite Medium<br/><br/>§53. The Similarity Law for Heat Transfer<br/><br/>§54. Heat Transfer in a Boundary Layer<br/><br/>§55. Heating of a Body in a Moving Fluid<br/><br/>§56. Free Convection<br/><br/>VI. Diffusion<br/><br/>§57. The Equations of Fluid Dynamics for a Mixture of Fluids<br/><br/>§58. Coefficients of Mass Transfer and Thermal Diffusion<br/><br/>§59. Diffusion of Particles Suspended in a Fluid<br/><br/>VII. Surface Phenomena<br/><br/>§60. Laplace's Formula<br/><br/>§61. Capillary Waves<br/><br/>§62. The Effect of Adsorbed Films on the Motion of a Liquid<br/><br/>VIII. Sound<br/><br/>§63. Sound Waves<br/><br/>§64. The Energy and Momentum of Sound Waves<br/><br/>§65. Reflection and Refraction of Sound Waves<br/><br/>§66. Geometrical Acoustics<br/><br/>§67. Propagation of Sound in a Moving Medium<br/><br/>§68. Characteristic Vibrations<br/><br/>§69. Spherical Waves<br/><br/>§70. Cylindrical Waves<br/><br/>§71. The General Solution of the Wave Equation<br/><br/>§72. The Lateral Wave<br/><br/>§73. The Emission of Sound<br/><br/>§74. The Reciprocity Principle<br/><br/>§75. Propagation of Sound in a Tube<br/><br/>§76. Scattering of Sound<br/><br/>§77. Absorption of Sound<br/><br/>§78. Second Viscosity<br/><br/>IX. Shock Waves<br/><br/>§79. Propagation of Disturbances in a Moving Gas<br/><br/>§80. Steady fFow of a Gas<br/><br/>§81. Surfaces of Discontinuity<br/><br/>§82. The Shock Adiabatic<br/><br/>§83. Weak Shock Waves<br/><br/>§84. The Direction of Variation of Quantities in a Shock Wave<br/><br/>§85. Shock Waves in a Perfect Gas<br/><br/>§86. Oblique Shock Waves<br/><br/>§87. The Thickness of Shock Waves<br/><br/>§88. The Isothermal Discontinuity<br/><br/>§89. Weak Discontinuities<br/><br/>X. One-dimensional Gas Flow<br/><br/>§90. Flow of Gas Through a Nozzle<br/><br/>§91. Flow of a Viscous Gas in a Pipe<br/><br/>§92. One-dimensional Similarity Flow<br/><br/>§93. Discontinuities in the Initial Conditions<br/><br/>§94. One-dimensional Traveling Waves<br/><br/>§95. Formation of Discontinuities in a Sound Wave<br/><br/>§96. Characteristics<br/><br/>§97. Riemann Invariants<br/><br/>§98. Arbitrary One-dimensional Gas Flow<br/><br/>§99. The Propagation of Strong Shock Waves<br/><br/>§100. Shallow-water Theory<br/><br/>XI. The Intersection of Surfaces of Discontinuity<br/><br/>§101. Rarefaction Waves<br/><br/>§102. The Intersection of Shock Waves<br/><br/>§103. The Intersection of Shock Waves with a Solid Surface<br/><br/>§104. Supersonic Flow Round an Angle<br/><br/>§105. Flow Past a Conical Obstacle<br/><br/>XII. Two-dimensional Gas Flow<br/><br/>§106. Potential Flow of a Gas<br/><br/>§107. Steady Simple Waves<br/><br/>§108. Chaplygin's Equation: The General Problem of Steady Two-dimensional Gas Flow<br/><br/>§109. Characteristics in Steady Two-dimensional Flow<br/><br/>§110. The Euler-Tricomi Equation. Transonic Flow<br/><br/>§111. Solutions of the Euler-Tricomi Equation near non-singular Points of the Sonic Surface<br/><br/>§112. Flow at the Velocity of Sound<br/><br/>§113. The Intersection of Discontinuities with the Transition Line<br/><br/>XIII. Flow Past Finite Bodies<br/><br/>§114. The Formation of Shock Waves in Supersonic Flow Past Bodies<br/><br/>§115. Supersonic Flow Past a Pointed Body<br/><br/>§116. Subsonic Flow Past a Thin Wing<br/><br/>§117. Supersonic Flow Past a Wing<br/><br/>§118. The Law of Transonic Similarity<br/><br/>§119. The Law of Hypersonic Similarity<br/><br/>XIV. Fluid Dynamics of Combustion<br/><br/>§120. Slow Combustion<br/><br/>§121. Detonation<br/><br/>§122. The Propagation of a Detonation Wave<br/><br/>§123. The Relation between the Different Modes of Combustion<br/><br/>§124. Condensation Discontinuities<br/><br/>XV. Relativistic Fluid Dynamics<br/><br/>§125. The Energy-momentum Tensor<br/><br/>§126. The Equations of Relativistic Fluid Dynamics<br/><br/>§127. Relativistic Equations for Dissipative Processes<br/><br/>XVI. Dynamics of Super-fluids<br/><br/>§128. Principal Properties of Super-fluids<br/><br/>§129. The Thermo-mechanical Effect<br/><br/>§130. The Equations of Super-fluid Dynamics<br/><br/>§131. The Propagation of Sound in a Super-fluid<br/><br/>XVII. Fluctuations in Fluid Dynamics<br/><br/>§132. The General Theory of Fluctuations in Fluid Dynamics<br/><br/>§133. Fluctuations in an Infinite Medium<br/><br/>Index<br/><br/> |
| 650 ## - SUBJECT ADDED ENTRY--TOPICAL TERM | |
| Topical term or geographic name as entry element | Fluid mechanics |
| 856 ## - ELECTRONIC LOCATION AND ACCESS | |
| Uniform Resource Identifier | <a href="https://books.google.co.in/books?id=CeBbAwAAQBAJ&printsec=frontcover&dq=fluid+mechanics+by+landau&hl=en&sa=X&ved=0ahUKEwjxjcjz4ILnAhXt73MBHdUTDoUQ6AEIKDAA#v=onepage&q=fluid%20mechanics%20by%20landau&f=false">https://books.google.co.in/books?id=CeBbAwAAQBAJ&printsec=frontcover&dq=fluid+mechanics+by+landau&hl=en&sa=X&ved=0ahUKEwjxjcjz4ILnAhXt73MBHdUTDoUQ6AEIKDAA#v=onepage&q=fluid%20mechanics%20by%20landau&f=false</a> |
| 901 ## - LOCAL DATA ELEMENT A, LDA (RLIN) | |
| Acc. No. | 22774 |
| 942 ## - ADDED ENTRY ELEMENTS (KOHA) | |
| Source of classification or shelving scheme | Dewey Decimal Classification |
| Koha item type | Books |
| Withdrawn status | Lost status | Source of classification or shelving scheme | Damaged status | Not for loan | Home library | Current library | Shelving location | Date acquired | Source of acquisition | Cost, normal purchase price | Inventory number | Total Checkouts | Full call number | Barcode | Date last seen | Uniform Resource Identifier | Price effective from | Koha item type | Date last borrowed |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Dewey Decimal Classification | Amity Central Library | Amity Central Library | Applied Physics | 11/07/2016 | SBA | 1195.00 | SBA / 11419 25/5/2016 | 532 LAN-F | 22774 | 11/07/2016 | https://epgp.inflibnet.ac.in/Home/Download | 11/07/2016 | Books | ||||||
| Dewey Decimal Classification | Amity Central Library | Amity Central Library | Applied Physics | 11/07/2016 | SBA | 1195.00 | SBA / 11419 25/5/2016 | 1 | 532 LAN-F | 22775 | 02/09/2016 | https://epgp.inflibnet.ac.in/Home/Download | 11/07/2016 | Books | 11/08/2016 | ||||
| Dewey Decimal Classification | Amity Central Library | Amity Central Library | Applied Physics | 11/07/2016 | SBA | 1195.00 | SBA / 11419 25/5/2016 | 532 LAN-F | 22776 | 11/07/2016 | https://epgp.inflibnet.ac.in/Home/Download | 11/07/2016 | Books |