A Primer in Fluid MechanicsDynamics of Flows in One Space DimensionCRC Press, 22 Οκτ 1998 - 544 σελίδες This distinctive text presents the basic principles of fluid mechanics by means of one-dimensional flow examples - differing significantly in style and content from other books. A Primer in Fluid Mechanics contains: Novel provisos in the text include Chapters also discuss physical properties, atmospheric stability, thermodynamics, energy and momentum equations, dimensional analysis, and historical perspectives of flows in pipes and conduits. A Primer in Fluid Mechanics offers a rigorous text for the curious student and for the research engineer seeking a readily available guide to the more refined treatments in the literature - supporting classical and current discussions as well as theoretical and practical concepts. |
Περιεχόμενα
Chapter | 6 |
Chapter | 6 |
Problems | 31 |
Fluid Statics | 37 |
Problems | 108 |
Chapter 3 | 117 |
Problems | 168 |
Problems | 238 |
Problems | 280 |
Chapter 6 | 287 |
Chapter 7 | 347 |
Problems | 416 |
Chapter 8 | 427 |
493 | |
501 | |
Chapter 5 | 249 |
Συχνά εμφανιζόμενοι όροι και φράσεις
A₁ applied Bernoulli's equation calculation coefficient compressible compressible flow compute constant continuity equation control volume denoted density depends derivative determine diameter differential equation dimensional analysis dimensionless dimensions downstream duct dynamic equation enthalpy entropy equilibrium example exit experimental expression Figure flow rate flow speed fluid mechanics fluid statics force friction factor ft/sec function gases gravitational heat horizontal incompressible integrated inviscid isentropic isoenergetic laminar liquid Mach number manometer mass molecular molecules motion nondimensional nonsteady nozzle observer obtained one-dimensional orifice P₁ P₂ parameters particle pathline perfect gas pipe flow plot problem quasi-steady ratio relation reservoir result Reynolds number Section shear stress shock solution specific speed of sound Standard Atmosphere static station steady surface Sutherland's law T₁ temperature theory thermodynamic tube turbulent flow U.S. Standard Atmosphere u₁ upstream V₁ V₂ variables velocity viscosity wall zero дх