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200 02$aA Letter sent to the Right Worshipfull, William Lenthall Esquire, speaker in the Commons House of Parliament, from the major of Bristoll and others, whose names are hereunto subscribed$b[electronic resource] $eIntimating the free benevolence of the city of Bristoll, for the relief of the Protestants in Ireland. Ordered by the Commons assembled in Parliament, that this letter be forthwith printed and published. Hen: Elsynge Cler. Parl. D. Com
210   $aLondon $cPrinted for Edw. Husbands, and are to be sold at his shop in the middle Temple$dMay 5. 1643
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300   $aDated "Bristoll, 29th of April, 1643" and signed by Richard Aldworth mayor, and 9 others.
300   $aReproduction of the original in the British Library.
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607   $aBristol (England)$xHistory$vEarly works to 1800
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200 10$aIntroduction to fluid mechanics /$fY. Nakayama ; UK editor, R.F. Boucher
205   $a1st ed.
210   $aLondon $cArnold ;$aNew York $cJ. Wiley & Sons$dc1999
215   $a1 online resource (321 p.)
300   $aDescription based upon print version of record.
311 08$a9780340676493 
311 08$a0340676493 
320   $aIncludes bibliographical references and index.
327   $aFront Cover; Introduction to Fluid Mechanics; Copyright Page; Contents; ABOUT THE AUTHORS; PREFACE; LIST OF SYMBOLS; CHAPTER 1. HISTORY OF FLUID MECHANICS; 1.1 Fluid mechanics in everyday life; 1.2 The beginning of fluid mechanics; CHAPTER 2. CHARACTERISTICS OF A FLUID; 2.1 Fluid; 2.2 Units and dimensions; 2.3 Density, specific gravity and specific volume; 2.4 Viscosity; 2.5 Surface tension; 2.6 Compressibility; 2.7 Characteristics of a perfect gas; 2.8 Problems; CHAPTER 3. FLUID STATICS; 3.1 Pressure; 3.2 Forces acting on the vessel of liquid; 3.3 Why does a ship float?
327   $a3.4 Relatively stationary state3.5 Problems; CHAPTER 4. FUNDAMENTALS OF FLOW; 4.1 Streamline and stream tube; 4.2 Steady flow and unsteady flow; 4.3 Three-dimensional, two-dimensional and one-dimensional flow; 4.4 Laminar flow and turbulent flow; 4.5 Reynolds number; 4.6 Incompressible and compressible fluids; 4.7 Rotation and spinning of a liquid; 4.8 Circulation; 4.9 Problems; CHAPTER 5. ONE-DIMENSIONAL FLOW: mechanism for conservation of flow properties; 5.1 Continuity equation; 5.2 Conservation of energy; 5.3 Conservation of momentum; 5.4 Conservation of angular momentum; 5.5 Problems
327   $aCHAPTER 6. FLOW OF VISCOUS FLUID6.1 Continuity equation; 6.2 Navier-Stokes equation; 6.3 Velocity distribution of laminar flow; 6.4 Velocity distribution of turbulent flow; 6.5 Boundary layer; 6.6 Theory of lubrication; 6.7 Problems; CHAPTER 7. FLOW IN PIPES; 7.1 Flow in the inlet region; 7.2 Loss by pipe friction; 7.3 Frictional loss on pipes other than circular pipes; 7.4 Various losses in pipe lines; 7.5 Pumping to higher levels; 7.6 Problems; CHAPTER 8. FLOW IN A WATER CHANNEL; 8.1 Flow in an open channel with constant section and flow velocity; 8.2 Best section shape of an open channel
327   $a8.3 Specific energy8.4 Constant discharge; 8.5 Constant specific energy; 8.6 Constant water depth; 8.7 Hydraulic jump; 8.8 Problems; CHAPTER 9. DRAG AND LIFT; 9.1 Flows around a body; 9.2 Forces acting on a body; 9.3 The drag of a body; 9.4 The lift of a body; 9.5 Cavitation; 9.6 Problems; CHAPTER 10. DIMENSIONAL ANALYSIS AND LAW OF SIMILARITY; 10.1 Dimensional analysis; 10.2 Buckingham's p theorem; 10.3 Application examples of dimensional analysis; 10.4 Law of similarity; 10.5 Problems; CHAPTER 11. MEASUREMENT OF FLOW VELOCITY AND FLOW RATE; 11.1 Measurement of flow velocity
327   $a11.2 Measurement of flow discharge11.3 Problems; CHAPTER 12. FLOW OF AN IDEAL FLUID; 12.1 Euler's equation of motion; 12.2 Velocity potential; 12.3 Stream function; 12.4 Complex potential; 12.5 Example of potential flow; 12.6 Conformal mapping; 12.7 Problems; CHAPTER 13. FLOW OF A COMPRESSIBLE FLUID; 13.1 Thermodynamical characteristics; 13.2 Sonic velocity; 13.3 Mach number; 13.4 Basic equations for one-dimensional compressible flow; 13.5 Isentropic flow; 13.6 Shock waves; 13.7 Fanno flow and Rayleigh flow; 13.8 Problems; CHAPTER 14. UNSTEADY FLOW; 14.1 Vibration of liquid column in U-tube
327   $a14.2 Propagation of pressure in pipe line
330   $aFluid mechanics is often seen as the most difficult core subject encountered by engineering students. The problem stems from the necessity to visualise complex flow patterns and fluid behaviour modelled by high level mathematics. This text overcomes this difficulty by introducing the concepts through everyday examples, before moving on to the more involved mathematics. The various theories of flow have been correlated with real phenomena and, combined with numerous figures and photographs, help the reader place the subject in context. Examples from a broad range of engineering disciplines are 
606   $aFluid mechanics
606   $aContinuum mechanics
615  0$aFluid mechanics.
615  0$aContinuum mechanics.
676   $a620.1/06
700   $aNakayama$b Y$g(Yasuki),$f1916-$0940676
701   $aBoucher$b R. F$g(Robert F.)$01798011
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996   $aIntroduction to fluid mechanics$94340575
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