FUNDAMENTALS OF FLUID MECHANICS8th EditionGERHART Publisher: WILEYISBN: 9781119571490
FUNDAMENTALS OF FLUID MECHANICS
Solutions for FUNDAMENTALS OF FLUID MECHANICS
Problem 54P:
Obtain a photograph/image of a situation in which the viscosity of a fluid is important. Print this...Problem 55P:
For flowing water, what is the magnitude of the velocity gradient needed to produce a shear stress...Problem 56P:
Make use of the data in Appendix B to determine the dynamic viscosity of glycerin at 85 °F. Express...Problem 57P:
One type of capillary-tube viscometer is shown in Video V1.5 and in Fig. P1.57. For this device the...Problem 58P:
The viscosity of a soft drink was determined by using a capillary tube viscometer similar to that...Problem 59P:
The viscosity of a certain fluid is 5 × 10−4 poise. Determine its viscosity in both SI and BG...Problem 60P:
The kinematic viscosity and specific gravity of a liquid are 3.5 × 10−4 m2/s and 0.79, respectively....Problem 61P:
A liquid has a specific weight of 59 lb/ft3 and a dynamic viscosity of 2.75 lb ∙ s/ft2. Determine...Problem 62P:
The kinematic viscosity of oxygen at 20 °C and a pressure of 150 kPa (abs) is 0.104 stokes....Problem 63P:
Fluids for which the shearing stress, τ, is not linearly related to the rate of shearing strain, ,...Problem 64P:
Water flows near a flat surface and some measurements of the water velocity, u, parallel to the...Problem 65P:
Calculate the Reynolds numbers for the flow of water and for air through a 4-mm-diameter tube, if...Problem 67P:
For air at standard atmospheric pressure the values of the constants that appear in the Sutherland...Problem 68P:
Use the values of viscosity of air given in Table B.4 at temperatures of 0, 20, 40, 60, 80, and 100...Problem 69P:
The viscosity of a fluid plays a very important role in determining how a fluid flows. (See Video...Problem 71P:
For a certain liquid μ = 7.1 × 10−5 lb • s/ft2 at 40 °F and μ = 1.9 × 10−5 lb • s/ft2 at 150 °F....Problem 72P:
For a parallel plate arrangement of the type shown in Fig. 1.5 it is found that when the distance...Problem 74P:
Three large plates are separated by thin layers of ethylene glycol and water, as shown in Fig....Problem 75P:
There are many fluids that exhibit non-Newtonian behavior (see, for example, Video V1.6). For a...Problem 76P:
The sled shown in Fig. P1.76 slides along on a thin horizontal layer of water between the ice and...Problem 77P:
A 25-mm-diameter shaft is pulled through a cylindrical bearing as shown in Fig. P1.77. The lubricant...Problem 78P:
A hydraulic lift in a service station has a 32.50-cm-diameter ram that slides in a 32.52-cm-diameter...Problem 79P:
A piston having a diameter of 5.48 in. and a length of 9.50 in. slides downward with a velocity V...Problem 80P:
A 10-kg block slides down a smooth inclined surface as shown in Fig. P1.80. Determine the terminal...Problem 81P:
A layer of water flows down an inclined fixed surface with the velocity profile shown in Fig. P1.81....Problem 82P:
Oil (absolute viscosity = 0.0003 lb · s /ft2, density = 50 lbm/ft3) flows in the boundary layer, as...Problem 83P:
Standard air flows past a flat surface, and velocity measurements near the surface indicate the...Problem 84P:
A new computer drive is proposed to have a disc, as shown in Fig. P1.84. The disc is to rotate at...Problem 85P:
The space between two 6-in.-long concentric cylinders is filled with glycerin (viscosity = 8.5 ×...Browse All Chapters of This Textbook
Chapter 1.2 - Dimensions, Dimensional Homogeneity, And UnitsChapter 1.4 - Measures Of Fluid Mass And WeightChapter 1.5 - Ideal Gas LawChapter 1.6 - ViscosityChapter 1.7 - Compressibility Of FluidsChapter 1.8 - Vapor PressureChapter 1.9 - Surface TensionChapter 2.3 - Pressure Variation In A Fluid At RestChapter 2.4 - Standard AtmosphereChapter 2.5 - Measurement Of Pressure
Chapter 2.6 - ManometryChapter 2.8 - Hydrostatic Force On A Plane SurfaceChapter 2.10 - Hydrostatic Force On A Curved SurfaceChapter 2.11 - Buoyancy, Flotation, And StabilityChapter 2.12 - Pressure Variation In A Fluid With Rigid-body MotionChapter 3.2 - F = Ma Along A StreamlineChapter 3.3 - F = Ma Normal To A StreamlineChapter 3.5 - Static, Stagnation, Dynamic, And Total PressureChapter 3.6 - Examples Of Use Of The Bernoulli EquationChapter 3.7 - The Energy Line And The Hydraulic Grade LineChapter 3.8 - Restrictions On Use Of The Bernoulli EquationChapter 4.1 - The Velocity FieldChapter 4.2 - The Acceleration FieldChapter 4.4 - The Reynolds Transport TheoremChapter 5.1 - Conservation Of Mass—the Continuity EquationChapter 5.2 - Newton’s Second Law—the Linear Momentum And Moment-of-momentum EquationsChapter 5.3 - First Law Of Thermodynamics— The Energy EquationChapter 5.5 - Chapter Summary And Study GuideChapter 6.1 - Fluid Element KinematicsChapter 6.2 - Conservation Of MassChapter 6.3 - The Linear Momentum EquationChapter 6.4 - Inviscid FlowChapter 6.5 - Some Basic, Plane Potential FlowsChapter 6.6 - Superposition Of Basic, Plane Potential FlowsChapter 6.8 - Viscous FlowChapter 6.9 - Some Simple Solutions For Laminar, Viscous, Incompressible FlowsChapter 6.10 - Other Aspects Of Differential AnalysisChapter 6.11 - Chapter Summary And Study GuideChapter 7.1 - The Need For Dimensional AnalysisChapter 7.3 - Determination Of Pi TermsChapter 7.5 - Determination Of Pi Terms By InspectionChapter 7.6 - Common Dimensionless Groups In Fluid MechanicsChapter 7.7 - Correlation Of Experimental DataChapter 7.8 - Modeling And SimilitudeChapter 7.9 - Some Typical Model StudiesChapter 7.10 - Similitude Based On Governing Differential EquationsChapter 7.11 - Chapter Summary And Study GuideChapter 8.1 - General Characteristics Of Pipe FlowChapter 8.2 - Fully Developed Laminar FlowChapter 8.3 - Fully Developed Turbulent FlowChapter 8.4 - Dimensional Analysis Of Pipe FlowChapter 8.5 - Pipe Flow ExamplesChapter 8.6 - Pipe Flowrate MeasurementChapter 8.7 - Chapter Summary And Study GuideChapter 9.1 - General External Flow CharacteristicsChapter 9.2 - Boundary Layer CharacteristicsChapter 9.3 - DragChapter 9.4 - LiftChapter 9.5 - Chapter Summary And Study GuideChapter 10.2 - Surface WavesChapter 10.3 - Energy ConsiderationsChapter 10.4 - Uniform FlowChapter 10.5 - Gradually Varied FlowChapter 10.6 - Rapidly Varied FlowChapter 10.7 - Chapter Summary And Study GuideChapter 11.1 - Ideal Gas ThermodynamicsChapter 11.2 - Stagnation PropertiesChapter 11.3 - Mach Number And Speed Of SoundChapter 11.4 - Compressible Flow RegimesChapter 11.5 - Shock WavesChapter 11.6 - Isentropic FlowChapter 11.7 - One-dimensional Flow In A Variable Area DuctChapter 11.8 - Constant-area Duct Flow With FrictionChapter 11.9 - Frictionless Flow In A Constant-area Duct With Heating Or CoolingChapter 12.1 - IntroductionChapter 12.4 - The Centrifugal PumpChapter 12.5 - Dimensionless Parameters And Similarity LawsChapter 12.6 - Axial-flow And Mixed-flow PumpsChapter 12.7 - FansChapter 12.8 - TurbinesChapter 12.9 - Compressible Flow TurbomachinesChapter 12.10 - Chapter Summary And Study Guide
Sample Solutions for this Textbook
We offer sample solutions for FUNDAMENTALS OF FLUID MECHANICS homework problems. See examples below:
Write the expression for the wind force (F). F = CDρV2A2 (I) Here, drag coefficient is CD, density...Static fluid pressure is the pressure exerted by the static fluid with respect to depth of the...The Bernoulli’s Equation can be used in many places not only in the pipe flow; the following are...Write the expression of surface velocity of the river. V=V0+ΔV(1−e−ax) Here, the constant initial...Consider the Reynolds transport theorem. DBsysDt=∂∂t∫cvρbdV+∫csρbV⋅n^dA (I) Here, control surface is...While swimming, the potential energy associated with the human body can be lost in the modes of...Write the expression of velocity in a certain two dimensional flow field. V=2xti^−2ytj^ (I) Here,...Einstein’s tea leaves experiment: In this experiment tea leaves were taken in the cup containing...Write the expression for the velocity gradient. G=W˙μV (I) Here, the power input is W˙, the fluid...
The lab-on-a-chip is integrated circuit device that integrates one or more laboratory function on a...Writ the formula for Reynolds number. Re=ρVDμ ∵(ρμ=1ν)=VDν (I) Here, the density is ρ, velocity is...Biomedical engineering applies engineering principles to solve the problems of medical field. In...The below figure represent the equatorial triangular bar. Figure-(1) Write the expression for the...The PIV technique is stands for Particle Image Velocimetry technique. The PIV technique is used for...Write the expression to obtain the acceleration due to gravity (g). c=gy g=c2y (I) Here, depth of...Nowadays it has been that the level of water in the sea is increasing year by year. The figure below...Ideal gas is a hypothetical concept whose properties are defined using ideal gas equation. Write the...Pump: It is defined as a machine or device which is used to force a fluid to move in a given...
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