A brief introduction to fluid mechanics:
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Hoboken, NJ
Wiley
2007
|
| Ausgabe: | 4. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | Rev. ed. of: A brief introduction to fluid mechanics / Donald F. Young, Bruce R. Munson, Theodore H. Okiishi. 2004. - Registration card in envelope tipped in Includes bibliographical references and index |
| Beschreibung: | XXI, 502 S. Ill., graph. Darst. |
| ISBN: | 9780470039625 |
Internformat
MARC
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| 245 | 1 | 0 | |a A brief introduction to fluid mechanics |c Donald F. Young ... |
| 250 | |a 4. ed. | ||
| 264 | 1 | |a Hoboken, NJ |b Wiley |c 2007 | |
| 300 | |a XXI, 502 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 500 | |a Rev. ed. of: A brief introduction to fluid mechanics / Donald F. Young, Bruce R. Munson, Theodore H. Okiishi. 2004. - Registration card in envelope tipped in | ||
| 500 | |a Includes bibliographical references and index | ||
| 650 | 4 | |a Fluid mechanics | |
| 650 | 4 | |a Fluid mechanics | |
| 650 | 0 | 7 | |a Strömungsmechanik |0 (DE-588)4077970-1 |2 gnd |9 rswk-swf |
| 655 | 7 | |8 1\p |0 (DE-588)4123623-3 |a Lehrbuch |2 gnd-content | |
| 689 | 0 | 0 | |a Strömungsmechanik |0 (DE-588)4077970-1 |D s |
| 689 | 0 | |5 DE-604 | |
| 700 | 1 | |a Young, Donald F. |e Sonstige |4 oth | |
| 856 | 4 | 2 | |m Digitalisierung UB Bayreuth |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016803940&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
| 999 | |a oai:aleph.bib-bvb.de:BVB01-016803940 | ||
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Datensatz im Suchindex
| _version_ | 1804138121040756736 |
|---|---|
| adam_text | с
ontents
2
INTRODUCTION
1
1.1 Some Characteristics of Fluids
2
1.2
Dimensions, Dimensional Homogeneity.
and Units
2
1.2.
1 Systems of Units
5
1.3
Analysis of Fluid Behavior
7
1
.4
Measures of Fluid Mass and Weight
8
1.4.1
Density
S
1.4.2
Specific Weight
S
1.4.3
Specific Gravity
Ч
1
.5
Ideal
Cías
Law
9
1.6
Viscosity 11
1.7
Compressibility of Fluids
15
1.7.1
Bulk Modulus
15
1.7.2
Compression and
Expansion
of
(¡ases
16
1.7.3
Speed of Sound
17
1.8
Vapor Pressure
18
1
.9
Surface Tension 1
8
1.10
Chapter Summary and Study Guide
Problems
2
1
fl
НЮ
S
ГАНС
S
2.1
28
Pressure at a Point
29
Basic Fquation for Pressure Field
30
2.3
Pressure Variation in a Fluid at Rest
31
2.
.VI Incompressible
Huid
32
2.3.2
Compressible
fluid
14
2.4
Standard Atmosphere
35
2.5
Measurement of Pressure
35
2.6
Manometry
37
2.6.1
Pic/ometcr Tube
.17
2.6.2
I Tube Manometer
.18
2.6.3
Inclined-Tube Manometer
41
2.7
Mechanical and Electronic Pressure
Measuring Devices
42
2.8
Hydrostatic Force on a Plane Surface
43
2.9
Pressure Prism
47
2.10
Hydrostatic Force on a Curved Surface
49
2.1
1 Buoyancy. Flotation, and Stability
52
2
I I
.
I Archimedes Principle
52
2.11.2
Stability SI
xvii
XVIII
Contents
2.12
Pressure
Variation
in a Fluid
with
Rigid-Body Motion
55
2.13
Chapter Summary and Study Guide
55
References
56
Problems
56
4.5
Chapter Summary and Study Guide
118
References
118
Problems
119
ELEMENTARY FLUID
DYNAMICS—THE BERNOULLI
EQUATION
FLUID KINEMATICS
4.1
The Velocity Field
4.1.1
Eulerian and Lagrangian Flow
Descriptions
4.1.2
One-, Two-, and Three-
Dimensional Flows
4.1.3
Steady and Unsteady Flows
4.1.4
Streamlines, Streaklines,
and Pathlines
4.2
The Acceleration Field
4.2.1
The Material Derivative
4.2.2
Unsteady Effects
4.2.3
Convective Effects
4.2.4
Streamline Coordinates
4.3
Control Volume and System
Representations
4.4
The Reynolds Transport Theorem
4.4.1
Derivation of the Reynolds
Transport Theorem
4.4.2
Selection of a Control Volume
66
3.1
Newton s Second Law
67
3.2
F
=
ma Along a Streamline
68
3.3
F
=
ma Normal to a Streamline
71
3.4
Physical Interpretation
73
3.5
Static, Stagnation, Dynamic,
and Total Pressure
75
3.6
Examples of Use of the Bernoulli Equation
78
3.6.1
Free Jets
78
3.6.2
Confined Flows
79
3.6.3
Flowrate Measurement
85
3.7
The Energy Line and the Hydraulic
Grade Line
88
3.8
Restrictions on the Use of the
Bernoulli Equation
90
3.9
Chapter Summary and Study Guide
91
Problems
92
101
101
103
FINITE CONTROL VOLUME
ANALYSIS
123
5.1
Conservation of Mass
—
The
Continuity Equation
123
5.1.1
Derivation of the Continuity Equation
123
5.1.2
Fixed, Nondeforming Control Volume
125
5.1.3
Moving, Nondeforming Control Volume
129
5.2
Newton s Second Law
—
The Linear Momentum and Moment-
of-Momentum Equations
130
5.2.1
Derivation of the Linear
Momentum Equation
130
5.2.2
Application of the Linear
Momentum Equation
132
5.2.3
Derivation of the Moment-of-
Momentum Equation
142
5.2.4
Application of the Moment-
of-Momentum Equation
143
5.3
First Law of Thermodynamics
—
The Energy Equation
150
5.3.1
Derivation of the Energy Equation
150
5.3.2
Application of the Energy Equation
153
5.3.3
Comparison of the Energy Equation
with the Bernoulli Equation
155
5.3.4
Application of the Energy
Equation to
Nonuniform
Flows
160
5.4
Chapter Summary and Study Guide
162
Problems
163
104
104
DIFFERENTIAL ANALYSIS
105
OF FLUID FLOW
177
108
6.1
Fluid Element Kinematics
178
108
6.1.1
Velocity and Acceleration
111
Fields Revisited
178
111
6.1.2
Linear Motion and Deformation
179
112
6.1.3
Angular Motion and Deformation
180
6.2
Conservation of Mass
184
113
6.2.1
Differential Form of
114
Continuity Equation
184
6.2.2
Cylindrical Polar Coordinates
186
114
6.2.3
The Stream Function
187
117
6.3
Conservation of Linear Momentum
190
Contents XIX
6.3.1
Description
of
Forces
Acting on
Differential Element
6.3.2
Equations of Motion
6.4
Inviscid Flow
6.4.1
Euler s Equations of Motion
6.4.2
The Bernoulli Equation
6.4.3
Irrotational Flow
6.4.4
The Bernoulli Equation for
Irrotational Flow
6.4.5
The Velocity Potential
6.5
Some Basic, Plane Potential Flows
6.5.1
Uniform Flow
6.5.2
Source and Sink
6.5.3
Vortex
6.5.4
Doublet
6.6
Superposition of Basic, Plane
Potential Flows
6.6.1
Source in a Uniform
Stream—Half-Body
6.6.2
Flow around a Circular Cylinder
6.7
Other Aspects of Potential Flow Analysis
6.8
Viscous Flow
6.8.1
Stress-Deformation Relationships
6.8.2
The Navier-Stokes Equations
6.9
Some Simple Solutions for Viscous,
Incompressible Fluids
6.9.1
Steady, Laminar Flow between
Fixed Parallel Plates
6.9.2
Couette
Flow
6.9.3
Steady, Laminar Flow in Circular Tubes
6.10
Other Aspects of Differential Analysis
6.11
Chapter Summary and Study Guide
References
Problems
7
7.7
Correlation of Experimental Data
191
7.7.1
Problems with One Pi Term
193
7.7.2
Problems with Two or More Pi Terms
194
7.8
Modeling and Similitude
194
7.8.1
Theory of Models
195
7.8.2
Model Scales
197
7.8.3
Distorted Models
7.9
Some Typical Model Studies
197
7.9.1
Flow through Closed Conduits
198
7.9.2
Flow around Immersed Bodies
201
7.9.3
Flow with a Free Surface
203
7.10
Chapter Summary and Study Guide
203
References
205
Problems
209
21]
211
SIMILITUDE, DIMENSIONAL
ANALYSIS, AND MODELING
7.1
Dimensional Analysis
7.2
Buckingham Pi Theorem
7.3
Determination of Pi Terms
7.4
Some Additional Comments about
Dimensional Analysis
7.4.1
Selection of Variables
7.4.2
Determination of
Reference Dimensions
7.4.3
Uniqueness of Pi Terms
7.5
Determination of Pi Terms by Inspection
7.6
Common Dimensionless Groups
in Fluid Mechanics
8
VISCOUS FLOW IN PIPES
214
8.1
General Characteristics of Pipe Flow
220
8.1.1
Laminar or Turbulent Flow
221
8.1.2
Entrance Region and Fully
221
Developed Flow
222
8.2
Fully Developed Laminar Flow
8.2.1
From
F
=
ma Applied to a
223
Fluid Element
8.2.2
From the Navier-Stokes Equations
223
8.3
Fully Developed Turbulent Flow
226
8.3.1
Transition from Laminar to
228
Turbulent Flow
230
8.3.2
Turbulent Shear Stress
231
8.3.3
Turbulent Velocity Profile
232
8.4
Dimensional Analysis of Pipe Flow
233
8.4.1
Major Losses
8.4.2
Minor Losses
8.4.3
Noncircular Conduits
8.5
Pipe Flow Examples
8.5.1
Single Pipes
40
8.5.2
Multiple Pipe Systems
8.6
Pipe Flowrate Measurement
241
8.7
Chapter Summary and Study Guide
242
References
243
Problems
248
248
9
249
FLOW OVER IMMERSED BODIES
249
9.1
General External Flow Characteristics
250
9.1.1
Lift and Drag Concents
251
327
328
9.1.2
Characteristics of Flow Past an Object
330
9.2
Boundary Layer Characteristics
333
XX
Contents
9.2.1
Boundary Layer
Structure
11.4
The Centrifugal Pump
417
and Thickness on a Flat Plate
333
11.4.1
Theoretical Considerations
417
9.2.2
Prandtl/Blasius Boundary Layer Solution
335
11.4.2
Pump Performance Characteristics
421
9.2.3
Momentum Integral Boundary Layer
11.4.3
System Characteristics
Equation for a Flat Plate
337
and Pump Selection
423
9.2.4
Transition from Laminar
11.5
Dimensionless Parameters
to Turbulent Flow
340
and Similarity Laws
426
9.2.5
Turbulent Boundary Layer Flow
341
11.5.1
Specific Speed
429
9.2.6
Effects of Pressure Gradient
343
11.6
Axial-How and Mixed-Flow Pumps
430
».3
Drag
346
11.7
Turbines
433
9.3.1
Friction Drag
347
11.7.1
Impulse Turbines
434
9.3.2
Pressure Drag
347
11.7.2
Reaction Turbines
440
9.3.3
Drag Coefficient Data and Examples
348
11.8
Compressible Flow
Turbomachines
443
1.4
Lift
361
11.9
Chapter Summary and Study Guide
444
9.4.1
Surface Pressure Distribution
361
References
445
9.4.2
Circulation
365
Problems
446
).5 Chapter Summary and Study Guide
367
References
367
Problems
368
A
COMPUTATIONAL FLUID
10
OPEN-CHANNEL FLOW
376
DYNAMICS AND FLOWLAB
454
10.1
10.2
10.3
General Characteristics of
Open-Channel Flow
Surface Waves
10.2.1
Wave Speed
10.2.2
Froude Number Effects
Energy Considerations
10.3.1
Specific Energy
10.4
Uniform Depth Channel Flow
10.4.1
Uniform Flow Approximations
10.4.2
The Chezy and Manning Equations
10.4.3
Uniform Depth Examples
10.5
Gradually Varied Flow
10.6
Rapidly Varied Flow
10.6.1
The Hydraulic Jump
10.6.2
Sharp-Crested Weirs
10.6.3
Broad-Crested Weirs
10.6.4
Underflow Gates
Chapter Summary and Study Guide
References
Problems
10.7
77
TURBOMACHINES
376
377
377
379
380
381
384
384
384
387
392
392
393
397
399
402
403
404
405
470
В
PHYSICAL PROPERTIES OF FLUIDS
469
С
PROPERTIES OF THE U.S.
STANDARD ATMOSPHERE
475
D
11.1
Introduction
410
11.2
Basic Energy Considerations
411
11.3
Basic Angular Momentum Considerations
415
REYNOLDS TRANSPORT THEOREM
477
D.
1
General Reynolds Transport Theorem
477
D.2 General Control Volume Equations
479
COMPREHENSIVE TABLE
OF CONVERSION FACTORS
483
ONLINE APPENDIX LIST
487
Contents XXI
VIDEO LIBRARY
See
book
web
site,
www.wiley.com/
college/young, for this material.
J
FLOWLAB TUTORIAL AND
USER S GUIDE
See book web site, www.wiley.com/
college/young, for this material.
REVIEW PROBLEMS
See book web site, www.wiley.com/
college/young, for this material.
H
LABORATORY PROBLEMS
See book web site, www.wiley.com/
college/young, for this material.
I
CED
DRIVEN CAVITY EXAMPLE
See book web site, www.wiley.com/
college/young, for this material.
К
FLOWLAB PROBLEMS
See book web site, www.wiley.com/
college/young, for this material.
ANSWERS
488
INDEX
493
INDEX OF FLUIDS
PHENOMENA VIDEOS
504
|
| adam_txt |
с
ontents
2
INTRODUCTION
1
1.1 Some Characteristics of Fluids
2
1.2
Dimensions, Dimensional Homogeneity.
and Units
2
1.2.
1 Systems of Units
5
1.3
Analysis of Fluid Behavior
7
1
.4
Measures of Fluid Mass and Weight
8
1.4.1
Density
S
1.4.2
Specific Weight
S
1.4.3
Specific Gravity
Ч
1
.5
Ideal
Cías
Law
9
1.6
Viscosity 11
1.7
Compressibility of Fluids
15
1.7.1
Bulk Modulus
15
1.7.2
Compression and
Expansion
of
(¡ases
16
1.7.3
Speed of Sound
17
1.8
Vapor Pressure
18
1
.9
Surface Tension 1
8
1.10
Chapter Summary and Study Guide
Problems
2
1
fl
НЮ
S
ГАНС
S
2.1
28
Pressure at a Point
29
Basic Fquation for Pressure Field
30
2.3
Pressure Variation in a Fluid at Rest
31
2.
.VI Incompressible
Huid
32
2.3.2
Compressible
fluid
14
2.4
Standard Atmosphere
35
2.5
Measurement of Pressure
35
2.6
Manometry
37
2.6.1
Pic/ometcr Tube
.17
2.6.2
I'Tube Manometer
.18
2.6.3
Inclined-Tube Manometer
41
2.7
Mechanical and Electronic Pressure
Measuring Devices
42
2.8
Hydrostatic Force on a Plane Surface
43
2.9
Pressure Prism
47
2.10
Hydrostatic Force on a Curved Surface
49
2.1
1 Buoyancy. Flotation, and Stability
52
2
I I
.
I Archimedes' Principle
52
2.11.2
Stability SI
xvii
XVIII
Contents
2.12
Pressure
Variation
in a Fluid
with
Rigid-Body Motion
55
2.13
Chapter Summary and Study Guide
55
References
56
Problems
56
4.5
Chapter Summary and Study Guide
118
References
118
Problems
119
ELEMENTARY FLUID
DYNAMICS—THE BERNOULLI
EQUATION
FLUID KINEMATICS
4.1
The Velocity Field
4.1.1
Eulerian and Lagrangian Flow
Descriptions
4.1.2
One-, Two-, and Three-
Dimensional Flows
4.1.3
Steady and Unsteady Flows
4.1.4
Streamlines, Streaklines,
and Pathlines
4.2
The Acceleration Field
4.2.1
The Material Derivative
4.2.2
Unsteady Effects
4.2.3
Convective Effects
4.2.4
Streamline Coordinates
4.3
Control Volume and System
Representations
4.4
The Reynolds Transport Theorem
4.4.1
Derivation of the Reynolds
Transport Theorem
4.4.2
Selection of a Control Volume
66
3.1
Newton's Second Law
67
3.2
F
=
ma Along a Streamline
68
3.3
F
=
ma Normal to a Streamline
71
3.4
Physical Interpretation
73
3.5
Static, Stagnation, Dynamic,
and Total Pressure
75
3.6
Examples of Use of the Bernoulli Equation
78
3.6.1
Free Jets
78
3.6.2
Confined Flows
79
3.6.3
Flowrate Measurement
85
3.7
The Energy Line and the Hydraulic
Grade Line
88
3.8
Restrictions on the Use of the
Bernoulli Equation
90
3.9
Chapter Summary and Study Guide
91
Problems
92
101
101
103
FINITE CONTROL VOLUME
ANALYSIS
123
5.1
Conservation of Mass
—
The
Continuity Equation
123
5.1.1
Derivation of the Continuity Equation
123
5.1.2
Fixed, Nondeforming Control Volume
125
5.1.3
Moving, Nondeforming Control Volume
129
5.2
Newton's Second Law
—
The Linear Momentum and Moment-
of-Momentum Equations
130
5.2.1
Derivation of the Linear
Momentum Equation
130
5.2.2
Application of the Linear
Momentum Equation
132
5.2.3
Derivation of the Moment-of-
Momentum Equation
142
5.2.4
Application of the Moment-
of-Momentum Equation
143
5.3
First Law of Thermodynamics
—
The Energy Equation
150
5.3.1
Derivation of the Energy Equation
150
5.3.2
Application of the Energy Equation
153
5.3.3
Comparison of the Energy Equation
with the Bernoulli Equation
155
5.3.4
Application of the Energy
Equation to
Nonuniform
Flows
160
5.4
Chapter Summary and Study Guide
162
Problems
163
104
104
DIFFERENTIAL ANALYSIS
105
OF FLUID FLOW
177
108
6.1
Fluid Element Kinematics
178
108
6.1.1
Velocity and Acceleration
111
Fields Revisited
178
111
6.1.2
Linear Motion and Deformation
179
112
6.1.3
Angular Motion and Deformation
180
6.2
Conservation of Mass
184
113
6.2.1
Differential Form of
114
Continuity Equation
184
6.2.2
Cylindrical Polar Coordinates
186
114
6.2.3
The Stream Function
187
117
6.3
Conservation of Linear Momentum
190
Contents XIX
6.3.1
Description
of
Forces
Acting on
Differential Element
6.3.2
Equations of Motion
6.4
Inviscid Flow
6.4.1
Euler's Equations of Motion
6.4.2
The Bernoulli Equation
6.4.3
Irrotational Flow
6.4.4
The Bernoulli Equation for
Irrotational Flow
6.4.5
The Velocity Potential
6.5
Some Basic, Plane Potential Flows
6.5.1
Uniform Flow
6.5.2
Source and Sink
6.5.3
Vortex
6.5.4
Doublet
6.6
Superposition of Basic, Plane
Potential Flows
6.6.1
Source in a Uniform
Stream—Half-Body
6.6.2
Flow around a Circular Cylinder
6.7
Other Aspects of Potential Flow Analysis
6.8
Viscous Flow
6.8.1
Stress-Deformation Relationships
6.8.2
The Navier-Stokes Equations
6.9
Some Simple Solutions for Viscous,
Incompressible Fluids
6.9.1
Steady, Laminar Flow between
Fixed Parallel Plates
6.9.2
Couette
Flow
6.9.3
Steady, Laminar Flow in Circular Tubes
6.10
Other Aspects of Differential Analysis
6.11
Chapter Summary and Study Guide
References
Problems
7
7.7
Correlation of Experimental Data
191
7.7.1
Problems with One Pi Term
193
7.7.2
Problems with Two or More Pi Terms
194
7.8
Modeling and Similitude
194
7.8.1
Theory of Models
195
7.8.2
Model Scales
197
7.8.3
Distorted Models
7.9
Some Typical Model Studies
197
7.9.1
Flow through Closed Conduits
198
7.9.2
Flow around Immersed Bodies
201
7.9.3
Flow with a Free Surface
203
7.10
Chapter Summary and Study Guide
203
References
205
Problems
209
21]
211
SIMILITUDE, DIMENSIONAL
ANALYSIS, AND MODELING
7.1
Dimensional Analysis
7.2
Buckingham Pi Theorem
7.3
Determination of Pi Terms
7.4
Some Additional Comments about
Dimensional Analysis
7.4.1
Selection of Variables
7.4.2
Determination of
Reference Dimensions
7.4.3
Uniqueness of Pi Terms
7.5
Determination of Pi Terms by Inspection
7.6
Common Dimensionless Groups
in Fluid Mechanics
8
VISCOUS FLOW IN PIPES
214
8.1
General Characteristics of Pipe Flow
220
8.1.1
Laminar or Turbulent Flow
221
8.1.2
Entrance Region and Fully
221
Developed Flow
222
8.2
Fully Developed Laminar Flow
8.2.1
From
F
=
ma Applied to a
223
Fluid Element
8.2.2
From the Navier-Stokes Equations
223
8.3
Fully Developed Turbulent Flow
226
8.3.1
Transition from Laminar to
228
Turbulent Flow
230
8.3.2
Turbulent Shear Stress
231
8.3.3
Turbulent Velocity Profile
232
8.4
Dimensional Analysis of Pipe Flow
233
8.4.1
Major Losses
8.4.2
Minor Losses
8.4.3
Noncircular Conduits
8.5
Pipe Flow Examples
8.5.1
Single Pipes
40
8.5.2
Multiple Pipe Systems
8.6
Pipe Flowrate Measurement
241
8.7
Chapter Summary and Study Guide
242
References
243
Problems
248
248
9
249
FLOW OVER IMMERSED BODIES
249
9.1
General External Flow Characteristics
250
9.1.1
Lift and Drag Concents
251
327
328
9.1.2
Characteristics of Flow Past an Object
330
9.2
Boundary Layer Characteristics
333
XX
Contents
9.2.1
Boundary Layer
Structure
11.4
The Centrifugal Pump
417
and Thickness on a Flat Plate
333
11.4.1
Theoretical Considerations
417
9.2.2
Prandtl/Blasius Boundary Layer Solution
335
11.4.2
Pump Performance Characteristics
421
9.2.3
Momentum Integral Boundary Layer
11.4.3
System Characteristics
Equation for a Flat Plate
337
and Pump Selection
423
9.2.4
Transition from Laminar
11.5
Dimensionless Parameters
to Turbulent Flow
340
and Similarity Laws
426
9.2.5
Turbulent Boundary Layer Flow
341
11.5.1
Specific Speed
429
9.2.6
Effects of Pressure Gradient
343
11.6
Axial-How and Mixed-Flow Pumps
430
».3
Drag
346
11.7
Turbines
433
9.3.1
Friction Drag
347
11.7.1
Impulse Turbines
434
9.3.2
Pressure Drag
347
11.7.2
Reaction Turbines
440
9.3.3
Drag Coefficient Data and Examples
348
11.8
Compressible Flow
Turbomachines
443
1.4
Lift
361
11.9
Chapter Summary and Study Guide
444
9.4.1
Surface Pressure Distribution
361
References
445
9.4.2
Circulation
365
Problems
446
).5 Chapter Summary and Study Guide
367
References
367
Problems
368
A
COMPUTATIONAL FLUID
10
OPEN-CHANNEL FLOW
376
DYNAMICS AND FLOWLAB
454
10.1
10.2
10.3
General Characteristics of
Open-Channel Flow
Surface Waves
10.2.1
Wave Speed
10.2.2
Froude Number Effects
Energy Considerations
10.3.1
Specific Energy
10.4
Uniform Depth Channel Flow
10.4.1
Uniform Flow Approximations
10.4.2
The Chezy and Manning Equations
10.4.3
Uniform Depth Examples
10.5
Gradually Varied Flow
10.6
Rapidly Varied Flow
10.6.1
The Hydraulic Jump
10.6.2
Sharp-Crested Weirs
10.6.3
Broad-Crested Weirs
10.6.4
Underflow Gates
Chapter Summary and Study Guide
References
Problems
10.7
77
TURBOMACHINES
376
377
377
379
380
381
384
384
384
387
392
392
393
397
399
402
403
404
405
470
В
PHYSICAL PROPERTIES OF FLUIDS
469
С
PROPERTIES OF THE U.S.
STANDARD ATMOSPHERE
475
D
11.1
Introduction
410
11.2
Basic Energy Considerations
411
11.3
Basic Angular Momentum Considerations
415
REYNOLDS TRANSPORT THEOREM
477
D.
1
General Reynolds Transport Theorem
477
D.2 General Control Volume Equations
479
COMPREHENSIVE TABLE
OF CONVERSION FACTORS
483
ONLINE APPENDIX LIST
487
Contents XXI
VIDEO LIBRARY
See
book
web
site,
www.wiley.com/
college/young, for this material.
J
FLOWLAB TUTORIAL AND
USER'S GUIDE
See book web site, www.wiley.com/
college/young, for this material.
REVIEW PROBLEMS
See book web site, www.wiley.com/
college/young, for this material.
H
LABORATORY PROBLEMS
See book web site, www.wiley.com/
college/young, for this material.
I
CED
DRIVEN CAVITY EXAMPLE
See book web site, www.wiley.com/
college/young, for this material.
К
FLOWLAB PROBLEMS
See book web site, www.wiley.com/
college/young, for this material.
ANSWERS
488
INDEX
493
INDEX OF FLUIDS
PHENOMENA VIDEOS
504 |
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| spelling | A brief introduction to fluid mechanics Donald F. Young ... 4. ed. Hoboken, NJ Wiley 2007 XXI, 502 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Rev. ed. of: A brief introduction to fluid mechanics / Donald F. Young, Bruce R. Munson, Theodore H. Okiishi. 2004. - Registration card in envelope tipped in Includes bibliographical references and index Fluid mechanics Strömungsmechanik (DE-588)4077970-1 gnd rswk-swf 1\p (DE-588)4123623-3 Lehrbuch gnd-content Strömungsmechanik (DE-588)4077970-1 s DE-604 Young, Donald F. Sonstige oth Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016803940&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | A brief introduction to fluid mechanics Fluid mechanics Strömungsmechanik (DE-588)4077970-1 gnd |
| subject_GND | (DE-588)4077970-1 (DE-588)4123623-3 |
| title | A brief introduction to fluid mechanics |
| title_auth | A brief introduction to fluid mechanics |
| title_exact_search | A brief introduction to fluid mechanics |
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| title_full | A brief introduction to fluid mechanics Donald F. Young ... |
| title_fullStr | A brief introduction to fluid mechanics Donald F. Young ... |
| title_full_unstemmed | A brief introduction to fluid mechanics Donald F. Young ... |
| title_short | A brief introduction to fluid mechanics |
| title_sort | a brief introduction to fluid mechanics |
| topic | Fluid mechanics Strömungsmechanik (DE-588)4077970-1 gnd |
| topic_facet | Fluid mechanics Strömungsmechanik Lehrbuch |
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