A primer in fluid mechanics : dynamics of flows in one space dimension /
The equations of fluid dynamics. Application in constant density flow. Flows in pipes and conduits.
| Main Author: | |
|---|---|
| Format: | Book |
| Language: | English |
| Published: |
Boca Raton, FL :
CRC Press,
[1999]
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| Subjects: | |
| Online Access: | Table of contents Publisher description |
MARC
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| 049 | |a MAIN | ||
| 100 | 1 | |a Brower, William B, |e author | |
| 245 | 1 | 2 | |a A primer in fluid mechanics : |b dynamics of flows in one space dimension / |c William B. Brower, Jr. |
| 264 | 1 | |a Boca Raton, FL : |b CRC Press, |c [1999] | |
| 264 | 4 | |c ©1999 | |
| 300 | |a 513 pages : |b illustrations ; |c 24 cm | ||
| 336 | |a text |b txt |2 rdacontent | ||
| 337 | |a unmediated |b n |2 rdamedia | ||
| 338 | |a volume |b nc |2 rdacarrier | ||
| 504 | |a Includes bibliographical references and index. | ||
| 520 | |a The equations of fluid dynamics. Application in constant density flow. Flows in pipes and conduits. | ||
| 505 | 0 | 0 | |t Fluid Properties -- Kinetic Theory of Gases -- |t Introduction -- |t The Macroscopic -- |t View of Matter -- |t The Liquid State -- |t On the Kinetic Theory of Gases -- |t Mass Density -- |t Pressure in a Gas -- |t The Molecular Mean-Free-Path Length -- |t Relation between Viscosity and Mean-Free-Path Length -- |t On Heat Conduction -- |t On the Units of Viscosity -- |t On the Viscosity of Real Gases -- |t Heat Conduction Coefficient for Dilute Gases -- |t On the Viscosity of Liquids -- |t Availability and Future Sources of Fluid Property Data -- |t Fluid Statics -- |t Introduction -- |t Equilibrium and Pressure in a Fluid -- |t Classification of Forces -- |t The Fundamental Equation of Fluid Statics -- |t Equation of Fluid Statics for a Uniform Gravitational Field -- |t Pressure-Height Relation in a Liquid -- |t Elementary Pressure-Measuring Instruments -- |t An Application in Manometry -- |t Forces and Moments on Submerged Surfaces -- |t Applications Involving Forces and Moments on Curved Surfaces -- |t Forces on Submerged Bodies -- |t The Concept of Static Stability -- |t Application: Stability of a Buoy -- |t On the Stability of a Floating Parabolic Segment -- |t Fluid Statics of the Atmosphere -- |t US Standard Atmosphere -- |t Concept of Geopotential Height -- |t Stability of the Atmosphere -- |t Buoyancy in the Atmosphere -- |t Application of the Inverse Square Law of Gravitation: Pressure at the Center of the Earth -- |t Surface Tension -- |t The Equation of Fluid Mechanics -- |t Introduction -- |t Concepts from Kinematics -- |t Relating Observed Motion for Two Different Observers -- |t Kinematics in a Flow Field -- |t Time Derivatives and the Substantial Derivative -- |t Illustrative Examples -- |t Example Involving Other Time Derivatives -- |t Concept of a One-Dimensional Flow -- |t The Postulates of Fluid Dynamics -- |t The Continuity Equation -- |t Invariance of Continuity Equation under Change of Observer -- |t The Dynamical Equation of Motion -- |t On Newton's Second Law -- |t On Concepts from Thermodynamics -- |t The First Law of Thermodynamics -- |t The Second Law of Thermodynamics -- |t The Energy Equation -- |t Dissipation and the Role of Friction -- |t Wok and the Integrated Form of the Energy Equation -- |t The Linear Momentum Equation -- |t Summary -- |t Applications in Constant-Density Flow -- |t Introduction -- |t A Catalogue of Restrictions -- |t The Equations of Incompressible (Constant-Density) Flow -- |t Bernoulli's Equation -- |t Total Pressure -- |t Frictionless Flow out of a Pressurized Reservoir -- |t On Quasi-Steady Flow -- |t Flow Losses in Internal Inlets -- |t Elementary Flow Metering Devices -- |t Two Flow-Rate Examples -- |t Pitot and Pitot-Static Tubes -- |t Elementary Applications of the Momentum Equation -- |t The Borda-Carnot Relation for a Sudden Enlargement -- |t The Borda Mouthpiece -- |t Forces on Vanes, Power Production -- |t The Rocket-Sled Water Brake -- |t The Water Sprinkler Problem -- |t Dimensional Analysis, Dynamical Similitude and Inspectional Analysis -- |t Dimensions versus Units -- |t Standards in Science and Technology -- |t Complete Physical Equations and Dimensional Homogeneity -- |t A Primitive Example of Dimensional Homogeneity -- |t The Role of Dimensionless Parameters -- |t The Buckingham Pi Theorem -- |t Application of the Pi Theorem -- |t Alternative Method for Determining the Pi-Ratios -- |t Example Where the Number of Pi-Ratios Is Greater than M-N -- |t Kinematical and Dynamical Similarity -- |t On the Physical Significance of the Reynolds Number -- |t Inspectional Analysis -- |t Dynamical Similarity and Modeling -- |t A Dimensional Analysis and an Inspectional Analysis Compared to the Complete Solution -- |t Effects of Viscosity in Pipes and Conduits -- |t A Historical Note -- |t The Experiments of Hagen and Poiseuille on Flow through Capillary Tubes -- |t Stokes' Solution for Hagen-Poiseuille Flow -- |t On the Correlation of Theory and Experiment -- |t The Darcy-Weisbach Equation for Head Loss in a Pipe -- |t Reynolds' Experiments on the Nature of Turbulence and the Discovery of a Criterion for the Transition from Laminar to Turbulent Flow -- |t The Application of Dimensional Analysis to Pipe Flow -- |t Zagarola and the Superpipe -- |t Flow in Artificially Roughened Pipes -- |t Flow Losses in Commercial Pipes -- |t Pumping Power to Maintain a Pipe Flow -- |t Computation of Power Required in a Non-Uniform Duct -- |t Hydraulic Calculations for Simple Conduits and Flow Loops -- |t Steady Flow through an Elastic Tube -- |t Steady Compressible Flow -- |t Introductory Remarks -- |t Thermodynamics of Fluids -- |t The Equations of Steady One-Dimensional Flow -- |t On the Propagation of Disturbances -- |t The Speed of Sound -- |t On the Maximum Speed of a Fluid Expanding into a Vacuum -- |t Discrepancies between Theory and Experiment -- |t Total Conditions in a Compressible Flow -- Introduction to Mach Number -- |t Application -- Temperature Rise at the Nose of a Re-Entry Vehicle -- |t Necessary Conditions for Accelerating a Flow in an Ideal Nozzle -- |t Isentropic Flow through a de Laval Nozzle -- |t The Appearance of Shock Waves in a Convergent-Divergent Nozzle -- |t Normal Shock Waves -- |t On the Structure of Shock Waves -- |t Analysis of Flow through a de Laval Nozzle with Shock Waves -- |t Fanno Processes -- |t Isothermal Flow -- |t The Inflow Problem -- |t Non-Steady Flow -- |t Introduction -- |t Analysis of Starting Flow in a Pipe Supplied by an Infinite Reservoir -- |t Non-Steady Liquid Flow through an Orifice in a Reservoir -- |t The Draining of a Conical Reservoir -- |t On the Notion of Characteristics -- |t Theory of Hyperbolic Equations for Functions of Two Independent Variables -- |t The General Equations for One-Dimensional Non-Steady Gas Flow in a Constant-Area Duct -- |t Impulsive Motion of a Piston in a Duct -- |t Propagation of an Isentropic Finite-Amplitude Compression Pulse -- |t An Approach to Acoustics. |
| 540 | |a Current Copyright Fee: GBP34.00 |c 0. |5 Uk | ||
| 590 | |b TAG Physical Holdings 2 | ||
| 650 | 0 | |a Fluid dynamics. |0 http://id.loc.gov/authorities/subjects/sh85049376 | |
| 650 | 6 | |a Dynamique des fluides. | |
| 650 | 7 | |a Fluid dynamics. |2 fast |0 (OCoLC)fst00927973 | |
| 650 | 7 | |a Strömungsmechanik |2 gnd | |
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| 650 | 1 | 7 | |a Stroming (algemeen, natuurkunde) |2 gtt |
| 650 | 1 | 7 | |a Reologie. |2 gtt |
| 650 | 7 | |a Fluid dynamics. |2 nli | |
| 650 | 7 | |a Fluides, Dynamique des. |2 ram | |
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