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E-grāmata: Schaum's Outline of Fluid Mechanics, Second Edition

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  • Formāts: 336 pages
  • Izdošanas datums: 09-Oct-2020
  • Izdevniecība: McGraw-Hill Education
  • Valoda: eng
  • ISBN-13: 9781260462852
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Schaum's Outline of Fluid Mechanics, Second EditionPalielināt
  • Formāts: 336 pages
  • Izdošanas datums: 09-Oct-2020
  • Izdevniecība: McGraw-Hill Education
  • Valoda: eng
  • ISBN-13: 9781260462852
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Stay on top of your fluid mechanics course—and study smarter for the Fundamentals of Engineering Exam—with the thoroughly updated Schaum’s Outline bestseller

Tough Test Questions? Missed Lectures? Not Enough Time?

Fortunately, there’s Schaum’s. 

More than 40 million students have trusted Schaum’s to help them succeed in the classroom and on exams. Schaum’s is the key to faster learning and higher grades in every subject. Each Outline presents all the essential course information in an easy-to-follow, topic-by-topic format. You also get hundreds of examples, solved problems, and practice exercises to test your skills. 

This Schaum’s Outline gives you:

  • 510 fully solved problems to reinforce knowledge
  • 2 practice exams (one multiple choice and one partial credit) after each of the first 9 chapters
  • 2 final practice exams
  • 54 Fundamentals of Engineering questions for the engineering qualifying exam
  • Hundreds of examples with explanations of fluid mechanics courses
  • Practice problems in multi-choice format like those on the Fundamentals of Engineering Exam
  • Support for all the major textbooks for fluid mechanics courses
Schaum’s reinforces the main concepts required in your course and offers hundreds of practice questions to help you suceed. Use Schaum’s to shorten your study time-and get your best test scores!



Chapter 1 Basic Information
1(24)
1.1 Introduction
1(1)
1.2 Dimensions, Units, and Physical Quantities
1(2)
1.3 Gases and Liquids
3(1)
1.4 Pressure and Temperature
4(2)
1.5 Properties of Fluids
6(4)
Specific Weight
6(1)
Specific Gravity
6(1)
Viscosity
6(2)
Bulk Modulus
8(1)
Surface Tension
8(1)
Vapor Pressure
9(1)
1.6 Thermodynamic Properties and Relationships
10(15)
Solved Problems
11(3)
Supplementary Problems
14(5)
Answers to Supplementary Problems
19(3)
Practice Exam 1.1
22(2)
Practice Exam 1.2
24(1)
Chapter 2 Fluid Statics
25(26)
2.1 Introduction
25(1)
2.2 Pressure Variation
25(3)
2.3 Manometers
28(1)
2.4 Forces on Plane and Curved Surfaces
29(4)
2.5 Accelerating Containers
33(18)
Solved Problems
36(2)
Supplementary Problems
38(8)
Answers to Supplementary Problems
46(2)
Practice Exam 2.1
48(2)
Practice Exam 2.2
50(1)
Chapter 3 Fluids In Motion
51(26)
3.1 Introduction
51(1)
3.2 Fluid Motion
51(6)
3.2.1 Lagrangian and Eulerian Descriptions
51(1)
3.2.2 Pathlines, Streaklines, and Streamlines
52(1)
3.2.3 Acceleration
53(2)
3.2.4 Angular Velocity and Vorticity
55(2)
3.3 Classification of Fluid Flows
57(3)
3.3.1 Uniform, One-, Two-, and Three-Dimensional Flows
57(1)
3.3.2 Viscous and Inviscid Flows
58(1)
3.3.3 Laminar and Turbulent Flows
58(2)
3.3.4 Incompressible and Compressible Flows
60(1)
3.4 Bernoulli's Equation
60(17)
Solved Problems
64(3)
Supplementary Problems
67(4)
Answers to Supplementary Problems
71(2)
Practice Exam 3.1
73(2)
Practice Exam 3.2
75(2)
Chapter 4 The Integral Equations
77(32)
4.1 Introduction
77(1)
4.2 System-to-Control-Volume Transformation
77(2)
4.3 Conservation of Mass
79(2)
4.4 The Energy Equation
81(2)
4.5 The Momentum Equation
83(8)
4.5.1 Deflectors
86(3)
4.5.2 Propellers
89(2)
4.6 Moment-of-Momentum Equation
91(18)
Solved Problems
92(5)
Supplementary Problems
97(6)
Answers to Supplementary Problems
103(2)
Practice Exam 4.1
105(3)
Practice Exam 4.2
108(1)
Chapter 5 The Differential Equations
109(18)
5.1 Introduction
109(1)
5.2 The Differential Continuity Equation
110(1)
5.3 The Differential Momentum Equation
111(5)
5.4 The Vorticity Equations
116(3)
5.5 The Differential Energy Equation
119(8)
Solved Problems
119(1)
Supplementary Problems
120(3)
Answers to Supplementary Problems
123(2)
Practice Exam 5.1
125(1)
Practice Exam 5.2
126(1)
Chapter 6 Dimensional Analysis And Similitude
127(16)
6.1 Introduction
127(1)
6.2 Dimensional Analysis
127(5)
6.3 Similitude
132(11)
Solved Problems
134(1)
Supplementary Problems
135(3)
Answers to Supplementary Problems
138(2)
Practice Exam 6.1
140(2)
Practice Exam 6.2
142(1)
Chapter 7 Internal Flows
143(42)
7.1 Introduction
143(1)
7.2 Entrance Flow
143(2)
7.3 Laminar Flow in a Pipe
145(3)
7.3.1 The Elemental Approach
145(1)
7.3.2 Applying the Navier--Stokes Equations
146(1)
7.3.3 Quantities of Interest
147(1)
7.4 Laminar Flow Between Parallel Plates
148(3)
7.4.1 The Elemental Approach
148(1)
7.4.2 Applying the Navier--Stokes Equations
149(1)
7.4.3 Quantities of Interest
150(1)
7.5 Laminar Flow Between Rotating Cylinders
151(4)
7.5.1 The Elemental Approach
152(1)
7.5.2 Applying the Navier--Stokes Equations
153(1)
7.5.3 Quantities of Interest
154(1)
7.6 Turbulent Flow in a Pipe
155(9)
7.6.1 The Semi-Log Profile
156(2)
7.6.2 The Power-Law Profile
158(1)
7.6.3 Losses in Pipe Flow
159(2)
7.6.4 Losses in Noncircular Conduits
161(1)
7.6.5 Minor Losses
161(2)
7.6.6 Hydraulic and Energy Grade Lines
163(1)
7.7 Open Channel Flow
164(21)
Solved Problems
166(5)
Supplementary Problems
171(8)
Answers to Supplementary Problems
179(3)
Practice Exam 7.1
182(2)
Practice Exam 7.2
184(1)
Chapter 8 External Flow
185(40)
8.1 Introduction
185(1)
8.2 Flow Around Blunt Bodies
186(6)
8.2.1 Drag Coefficients
186(3)
8.2.2 Vortex Shedding
189(1)
8.2.3 Cavitation
190(1)
8.2.4 Added Mass
191(1)
8.3 Flow Around Airfoils
192(1)
8.4 Potential Flow
193(6)
8.4.1 Basics
193(2)
8.4.2 Several Simple Flows
195(2)
8.4.3 Superimposed Flows
197(2)
8.5 Boundary-Layer Flow
199(26)
8.5.1 General Information
199(2)
8.5.2 The Integral Equations
201(1)
8.5.3 Laminar and Turbulent Boundary Layers
202(4)
8.5.4 Laminar Boundary-Layer Differential Equation
206(2)
Solved Problems
208(5)
Supplementary Problems
213(7)
Answers to Supplementary Problems
220(2)
Practice Exam No. 8.1
222(2)
Practice Exam No. 8.2
224(1)
Chapter 9 Compressible Flow
225(28)
9.1 Introduction
225(1)
9.2 Speed of Sound
226(2)
9.3 Isentropic Nozzle Row
228(4)
9.4 Normal Shock Waves
232(3)
9.5 Oblique Shock Waves
235(3)
9.6 Expansion Waves
238(15)
Solved Problems
240(4)
Supplementary Problems
244(3)
Answers to Supplementary Problems
247(2)
Practice Exam 9.1
249(2)
Practice Exam 9.2
251(2)
Chapter 10 Rows In Pipes And Pumps
253(56)
10.1 Introduction
253(1)
10.2 Simple Pipe Systems
253(5)
10.2.1 Losses
253(1)
10.2.2 Hydraulics of Simple Pipe Systems
254(4)
10.3 Pumps in Pipe Systems
258(4)
10.4 Pipe Networks
262(4)
10.4.1 Network Equations
262(1)
10.4.2 Hardy Cross Method
263(3)
10.4.3 Computer Analysis of Network Systems
266(1)
10.5 Unsteady Flow
266(13)
10.5.1 Incompressible Flow
266(2)
10.5.2 Compressible Flow of Liquids
268(3)
Solved Problems
271(3)
Supplementary Problems
274(3)
Answers to Supplementary Problems
277(2)
Final Practice Exams
279(30)
Final Exam 1
279(4)
Final Exam 2
283(26)
Appendix A Units and Conversions 309(2)
Appendix B Vector Relationships 311(2)
Appendix C Fluid Properties 313(6)
Appendix D Compressible Row Table for Air 319(4)
Index 323
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McGraw-Hill authors represent the leading experts in their fields and are dedicated to improving the lives, careers, and interests of readers worldwide
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