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Principles
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Fluid Dynamics Volume I Volume II Appendices
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Part I - Generalities
05 jan 12 Chapter   1 - The states of the matter
14 jan 12 Chapter   2 - The continuum hypothesis
Part II - Hydrostatics
19 feb 12 Chapter   3 - The forces in a fluid at rest
24 may 12 Chapter   4 - The hydrostatic equilibrium
Part III - The mass conservation
31 mag 12 Chapter   5 - The total derivative
03 jun 12 Chapter   6 - The continuity equation
Part IV - Momentum equations
23 jun 12 Chapter   7 - The Euler equations
30 jun 12 Chapter   8 - Viscosity
31 aug 12 Chapter   9 - The tensor of the viscous stresses
14 dic 10 Chapter 10 - The Navier-Stokes equations
Part V - The laminar boundary layer
03 nov 12 Chapter 11 - The impulsive flow
24 nov 12 Chapter 12 - Blasius solution
Part VI - Turbulence
22 jun 13 Chapter 13 - The Reynolds experiment
29 jun 13 Chapter 14 - The Reynolds number
30 nov 13 Chapter 15 - The turbulent motion as a stochastic process
28 jul 14 Chapter 16 - The Reynlds stresses
04 aug 14 Chapter 17 - Turbulence parametrization
11 jan 15 Chapter 18 - The logarithmic profile
Part V - The equations for a rotating system
01 jan 15 Chapter 51 - Apparent forces due to the earth's rotation
06 sep 15 Chapter 52 - The gravity acceleration
06 sep 15 Chapter 53 - The Coriolis force
04 feb 16 Chapter 54 - Basic motions in a rotating system
04 feb 16 Chapter 55 - The eart's sphericity
Part VI - Rectilinear horizontal flows
12 may 16 Chapter 56 - The geostrophic equilibrium
12 may 16 Chapter 57 - The planetary boundary layer
22 feb 17 Chapter 58 - The surface layer





Appendices
04 jun 12 Appendix A - Scalars, vectors and tensors
23 jun 12 Appendix B - Derivatives and differentials
04 sep 12 Appendix C - Three-dimensional differential operators
26 oct 12 Appendix D - Two-dimensional differential operators
03 dic 12 Appendix E - Linear and nonlinear equations
07 feb 13 Appendix F - The Pi theorem

Index





Next chapters will be published as soon as possible.