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A Course in Fluid Mechanics with Vector Field Theory

By Prieve, Dennis C.

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Book Id: WPLBN0000694975
Format Type: PDF eBook
File Size: 1.34 MB
Reproduction Date: 2005

Title: A Course in Fluid Mechanics with Vector Field Theory  
Author: Prieve, Dennis C.
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Language: English
Subject: Science., Mathematics, Logic
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Prieve, D. C. (n.d.). A Course in Fluid Mechanics with Vector Field Theory. Retrieved from http://gutenberg.us/

Description
Mathematics document containing theorems and formulas.

Table of Contents
Table of Contents ALGEBRA OF VECTORS AND TENSORS ..............................................................................................................................1 VECTOR MULTIPLICATION.....................................................................................................................................................1 Definition of Dyadic Product.............................................................................................................................................2 DECOMPOSITION INTO SCALAR COMPONENTS....................................................................................................................3 SCALAR FIELDS..........................................................................................................................................................................3 GRADIENT OF A SCALAR..........................................................................................................................................................4 Geometric Meaning of the Gradient.................................................................................................................................6 Applications of Gradient....................................................................................................................................................7 CURVILINEAR COORDINATES..................................................................................................................................................7 Cylindrical Coordinates ....................................................................................................................................................7 Spherical Coordinates........................................................................................................................................................8 DIFFERENTIATION OF VECTORS W.R.T. SCALARS................................................................................................................9 VECTOR FIELDS........................................................................................................................................................................ 11 Fluid Velocity as a Vector Field.....................................................................................................................................11 PARTIAL & MATERIAL DERIVATIVES................................................................................................................................. 12 CALCULUS OF VECTOR FIELDS...........................................................................................................................................14 GRADIENT OF A SCALAR (EXPLICIT)................................................................................................................................... 14 DIVERGENCE, CURL, AND GRADIENT................................................................................................................................... 16 Physical Interpretation of Divergence...........................................................................................................................16 Calculation of ¥.v in R.C.C.S........................................................................................................................................16 Evaluation of ¥?v and ¥v in R.C.C.S............................................................................................................................18 Evaluation of ¥.v, ¥?v and ¥v in Curvilinear Coordinates ...................................................................................19 Physical Interpretation of Curl.......................................................................................................................................20 VECTOR FIELD THEORY..........................................................................................................................................................22 DIVERGENCE THEOREM.......................................................................................................................................................... 23 Corollaries of the Divergence Theorem.........................................................................................................................24 The Continuity Equation..................................................................................................................................................24 Reynolds Transport Theorem...........................................................................................................................................26 STOKES THEOREM................................................................................................................................................................... 27 Velocity Circulation: Physical Meaning .......................................................................................................................28 DERIVABLE FROM A SCALAR POTENTIAL.......................................................................................................................... 29 THEOREM III............................................................................................................................................................................. 31 TRANSPOSE OF A TENSOR, IDENTITY TENSOR.................................................................................................................... 31 DIVERGENCE OF A TENSOR .................................................................................................................................................... 32 INTRODUCTION TO CONTINUUM MECHANICS*.............................................................................................................34 CONTINUUM HYPOTHESIS..................................................................................................................................................... 34 CLASSIFICATION OF FORCES.................................................................................................................................................. 36 HYDROSTATIC EQUILIBRIUM...............................................................................................................................................37 FLOW OF IDEAL FLUIDS .........................................................................................................................................................37 EULER'S EQUATION ................................................................................................................................................................. 38 KELVIN'S THEOREM................................................................................................................................................................. 41 IRROTATIONAL FLOW OF AN INCOMPRESSIBLE FLUID..................................................................................................... 42 Potential Flow Around a Sphere....................................................................................................................................45 d'Alembert's Paradox........................................................................................................................................................50 STREAM FUNCTION..................................................................................................................................................................53 TWO-D FLOWS......................................................................................................................................................................... 54 AXISYMMETRIC FLOW (CYLINDRICAL).............................................................................................................................. 55 AXISYMMETRIC FLOW (SPHERICAL)................................................................................................................................... 56 ORTHOGONALITY OF y=CONST AND f=CONST................................................................................................................... 57 STREAMLINES, PATHLINES AND STREAKLINES................................................................................................................. 57 PHYSICAL MEANING OF STREAMFUNCTION...................................................................................................................... 58 INCOMPRESSIBLE FLUIDS....................................................................................................................................................... 60

 
 



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