Fluid Mechanics Fundamentals And Applications - 3rd Edition - by Yunus Cengel, John Cimbala - ISBN 9780073380322

Fluid Mechanics Fundamentals And Applic...
3rd Edition
Yunus Cengel, John Cimbala
Publisher: MCGRAW-HILL HIGHER EDUCATION
ISBN: 9780073380322

Solutions for Fluid Mechanics Fundamentals And Applications

Book Details

Cengel and Cimbala's Fluid Mechanics Fundamentals and Applications , communicates directly with tomorrow's engineers in a simple yet precise manner. The text covers the basic principles and equations of fluid mechanics in the context of numerous and diverse real-world engineering examples. The text helps students develop an intuitive understanding of fluid mechanics by emphasizing the physics, using figures, numerous photographs and visual aids to reinforce the physics. The highly visual approach enhances the learning of Fluid mechanics by students. This text distinguishes itself from others by the way the material is presented - in a progressive order from simple to more difficult, building each chapter upon foundations laid down in previous chapters. In this way, even the traditionally challenging aspects of fluid mechanics can be learned effectively. McGraw-Hill is also proud to offer ConnectPlus powered by Maple with the third edition of Cengel/Cimbabla, Fluid Mechanics . This innovative and powerful new system that helps your students learn more easily and gives you the ability to customize your homework problems and assign them simply and easily to your students. Problems are greaded automatically, and the results are recorded immediately. Natural Math Notation allows for answer entry in many different forms, and the system allows for easy customization and authoring of exercises by the instructor.

Sample Solutions for this Textbook

We offer sample solutions for Fluid Mechanics Fundamentals And Applications homework problems. See examples below:

Chapter 2, Problem 52PChapter 2, Problem 54PGiven information: The pressure of the air is 95 kPa, the initial temperature is 20°C, the final...Chapter 2, Problem 63PChapter 2, Problem 81PChapter 2, Problem 85PChapter 2, Problem 90PChapter 2, Problem 94PChapter 2, Problem 124PGiven information: The constant velocity of the liquid is 10 m/s, the thickness of the layer of the...Given information: The diameter of the shaft is 80 mm, length is 400 mm, velocity of bearing is 5...Chapter 2, Problem 129PChapter 3, Problem 1CPChapter 3, Problem 24PChapter 3, Problem 45PChapter 3, Problem 46PChapter 3, Problem 57PChapter 3, Problem 68EPChapter 3, Problem 73PChapter 3, Problem 79PChapter 3, Problem 81PChapter 3, Problem 82PGiven information: The length of the tank is 2.5 m, the width of the tank is 8.1 m, and the height...Chapter 3, Problem 86PGiven information: Height of concrete blocks is 1.2 m, width of concrete block is 0.4 m, density of...Given information: Specific gravity of the fluid 1 is 0.86, specific gravity of the fluid 2 is 1.25...Chapter 3, Problem 92PGiven information: Specific gravity of the oil is 1.5, height of the water is 4 m, height of the oil...The radius of the semi-circular gate is 0.5 m, specific gravity of fluid in section 1 is 0.91,...Chapter 3, Problem 137PGiven information: The fluid is incompressible and stay separate and do not mix with each other, the...Chapter 4, Problem 1CPChapter 4, Problem 23PChapter 4, Problem 24PGiven information: The flow is symmetric about x axis. Write the expression for the two-dimensional...Given information: The fluid particle is located on the centre line. Write the expression for the...Chapter 4, Problem 55PChapter 4, Problem 56PChapter 4, Problem 64PThe shear strain rate is half of the rate of decrease of the angle between two perpendicular lines...Chapter 4, Problem 101PWrite the expression for the two dimensional Poiseuille flow. u=12μdPdx(y2−hy). Here, the distance...The vector field of flow is V⇀=k(x2−y2)i⇀−2kxyj⇀ and the radius of curvature of streamline is R=[1+...Chapter 4, Problem 108PGiven information: The velocity component along the x direction is...Chapter 5, Problem 1CPChapter 5, Problem 27PThe diameter of the tank is DT and the mass flow rate is m˙in. The following figure shows the...Chapter 5, Problem 58PChapter 5, Problem 62EPChapter 5, Problem 68PChapter 5, Problem 90PChapter 5, Problem 92PChapter 5, Problem 94PChapter 5, Problem 95PChapter 5, Problem 99PChapter 5, Problem 103PChapter 5, Problem 114PChapter 5, Problem 115PChapter 5, Problem 140PChapter 6, Problem 1CPChapter 6, Problem 47PChapter 6, Problem 48PGiven information: The volume flow rate of the water is 35 L/s, the discharge area for the smaller...Chapter 6, Problem 61PChapter 6, Problem 69PChapter 6, Problem 72PChapter 6, Problem 81PChapter 6, Problem 82PChapter 6, Problem 97PGiven information: The length of the slit is 1.2 m, width of the rectangular slit is 5 mm, water...Chapter 7, Problem 1CPChapter 7, Problem 40EPGiven information: The shaft power is W˙, the angular velocity is ω, the fluid density is ρ, the...Chapter 7, Problem 56PChapter 7, Problem 65PChapter 7, Problem 67PChapter 7, Problem 71PThe angular velocity is ω, the fluid density is ρ, the acceleration due to gravity id g, the radius...Given information: force pressure gradient =dPdxFlow​ : steady+ ​incomprssible down stream distance...Given Information: Top plate speed, Vtop Bottom plate speed, Vbottom Steady flow, incompressible, 2...Chapter 7, Problem 111PChapter 7, Problem 115PChapter 7, Problem 116PGiven information: The following figure shows that two parallel flat plates. Figure-( 1) Assume, at...Chapter 8, Problem 1CPChapter 8, Problem 66PChapter 8, Problem 82PGiven information: The air discharge rate is 1.2 ft3/s, diameter of the vent is 5 in, length of the...Given information: The temperature of oil is 20°C, the height of cylindrical reservoir is 20 cm, the...Given information: The temperature of the water is 110°C, density of the water is 950.6 kg/m3,...Chapter 8, Problem 96PChapter 8, Problem 98PGiven information: The length of the pipe of the circulating loop is 40 m, the diameter of the pipe...Chapter 8, Problem 132PGiven information: The length of the pipe is 250 ft and u(r)=0.8(1−625r2) ft/s .where r is the...Chapter 8, Problem 137EPGiven Information: The diameter of the pipe is 6 cm, the length of the pipe is 33 m, the inlet...Chapter 8, Problem 144PGiven information: The diameter of tank 1 is 30 cm, diameter of tank 2 is 12 cm, diameter of orifice...Given information: The diameter of the cast iron pipe is 0.35 m and the length of the cast iron pipe...Chapter 8, Problem 160PGiven information: The swimming pool diameter is 10 m, the swimming pool height is 2 m, the...Chapter 9, Problem 1CPChapter 9, Problem 19PGiven information: The incompressible flow filed for which the velocity u component is u=ax2−bxy,...Given information: The velocity component in θ direction is equal to 0. Write the expression for...Given information: The diameter at the entrance of the nozzle is 0.50 in, the diameter at exit of...Chapter 9, Problem 89PGiven information: The flow is steady, incompressible, parallel, two dimensional and laminar. The...Chapter 9, Problem 96PGiven information: The flow is steady, laminar, two-dimensional and incompressible. The flow is...Given information: Write the expression for Navier-Stokes equation for cylindrical coordinates along...Chapter 9, Problem 104PChapter 9, Problem 105PGiven information: The assumptions made are stated below: The flow is parallel, steady, and laminar....Chapter 9, Problem 125PChapter 10, Problem 1CPGiven information: Actual stokes law is FD=3πμDV+(9π/16)ρV2D2. Three aluminum balls of diameters 2...First, we need to use continuity equation for velocity component. From continuity equation, We have,...Chapter 10, Problem 26PGiven: h0=sleeper pad=11000h1=final height of sleeper=12000 lenght=1.0 Concept Used: Convergence of...Chapter 10, Problem 62PChapter 10, Problem 69PChapter 10, Problem 92PChapter 10, Problem 93PChapter 10, Problem 99PChapter 10, Problem 109PChapter 10, Problem 111PChapter 10, Problem 115PGiven information: The density of air is 0.8588 kg/m3, the temperature of air is −50°C the pressure...Chapter 11, Problem 1CPGiven information: The diameter of sphere is 6 mm, the density of plastic sphere is 1150 kg/m3,...Chapter 11, Problem 44EPGiven information: The velocity of the truck is 70 mi/h, the length of the rectangular refrigerated...Given information: The wind velocity is 55 km/h, the temperature of the wind is 5°C, pressure is 1...Given information: The diameter of the dust particle is 0.1 mm, the density id 2.1 g/cm3, the...Chapter 11, Problem 72PChapter 11, Problem 85PChapter 11, Problem 99PChapter 11, Problem 104EPGiven information: Diameter=2 mm ρs=2600 kgm3ρf=1274 kgm3 Vexperimental=3.2 mms μ=1 kgm⋅s Concept...Given information: The diameter of the first aluminum ball is 2 mm, the diameter of the second...Given information: The diameter of the ball is 2 mm, the density of the ball is 2700 kg/m3, the...Chapter 12, Problem 2CPGiven information: The temperature of air is 320 K and the velocity is 1 m/s. Expression for the...Given information: The initial pressure of the air is 30 psi, the initial temperature of the air is...Given: Air pressure, air temperature and Mach number are 14 psia, 40°F and 2 respectively. Flow...Given: The upstream the shock is given by, Pressure of air P1=58kPa Temperature of air T1=270K Mach...Given information: The diameter of combustion chamber is 16 cm, inlet temperature of air is 450 K,...Chapter 12, Problem 106PChapter 12, Problem 109PGiven information: The Mach number varies from 0 to 1. Relation for mass flow parameter and Mach...Given information: The nozzle is isentropic, the pressure of helium gas in the nozzle is 1 MPa, the...Chapter 13, Problem 1CPGiven information: The temperature of the water is 10°C, the width of the rectangular channel is 6...Given information: The maximum height of the channel is 3.2 m. Write the expression for the cross-...Given Information: The figure below represents the cross -section of three channels. Figure-(1) The...Given Information: The figure below shows the cross -section of the channel. Figure-(1) The bottom...Given Information: The water flow rate is 10 m3/s and the bottom slope is 0.0015 Write the...Chapter 13, Problem 67PChapter 13, Problem 104PChapter 13, Problem 119PGiven information: The channel angle is 0.5°. Write the expression for flow rate using manning's...Chapter 13, Problem 142PGiven information: Water is flowing through a sluice gate, the velocity of water before reaching the...Chapter 13, Problem 145PChapter 13, Problem 146PGiven information: The height of bump is 20 cm, initial velocity of flow is 1.25 m/s, the flow depth...Chapter 13, Problem 168PChapter 14, Problem 1CPChapter 14, Problem 28PChapter 14, Problem 31EPChapter 14, Problem 39EPChapter 14, Problem 40EPChapter 14, Problem 43PChapter 14, Problem 47PChapter 14, Problem 52PChapter 14, Problem 57EPGiven information: The speed of the pump is 750 rpm, the entry angle of the water in the impeller is...Chapter 14, Problem 69PGiven information: The gross head is 90 m, the volume flow rate of water is 4.7×106 gpm, the speed...Chapter 14, Problem 116PChapter 14, Problem 125PChapter 15, Problem 1CP

More Editions of This Book

Corresponding editions of this textbook are also available below:

FLUID MECHANICS FUNDAMENTALS+APPS
4th Edition
ISBN: 2810022150991
Fluid Mechanics: Fundamentals and Applications
4th Edition
ISBN: 9781259696534
EBK FLUID MECHANICS: FUNDAMENTALS AND A
4th Edition
ISBN: 8220103676205
Fluid Mechanics: Fundamentals and Applications
4th Edition
ISBN: 9781259877827
FLUID MECHANICS FUND. (LL)-W/ACCESS
4th Edition
ISBN: 9781266016042
Fluid Mechanics with Student Resources DVD
2nd Edition
ISBN: 9780077295462

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