Fox And Mcdonald's Introduction To Flui...9th EditionPritchard, Philip J.; Leylegian, John C.; Bhaskaran, Rajesh Publisher: WILEYISBN: 9781118921876
Fox And Mcdonald's Introduction To Flui...
Solutions for Fox And Mcdonald's Introduction To Fluid Mechanics
Problem 1P:
The slope of the free surface of a steady wave in one-dimensional flow in a shallow liquid layer is...Problem 2P:
One-dimensional unsteady flow in a thin liquid layer is described by the equation ut+uux=ghx Use a...Problem 3P:
In atmospheric studies the motion of the earths atmosphere can sometimes be modeled with the...Problem 4P:
Fluid fills the space between two parallel plates. The differential equation that describes the...Problem 5P:
By using order of magnitude analysis, the continuity and NavierStokes equations can be simplified to...Problem 6P:
Consider a disk of radius R rotating in an incompressible fluid at a speed . The equations that...Problem 7P:
An unsteady, two-dimensional, compressible, inviscid flow can be described by the equation...Problem 8P:
Experiments show that the pressure drop for flow through an orifice plate of diameter d mounted in a...Problem 9P:
At very low speeds, the drag on an object is independent of fluid density. Thus the drag force, F,...Problem 10P:
We saw in Chapter 3 that the buoyant force, FB, on a body submerged in a fluid is directly...Problem 11P:
Assume that the velocity acquired by a body falling from rest (without resistance) depends on weight...Problem 12P:
Derive by dimensional analysis an expression for the local velocity in established pipe flow through...Problem 13P:
The speed of shallow water waves in the ocean (e.g., seismic sea waves or tsunamis) depends only on...Problem 14P:
The speed, V, of a free-surface wave in shallow liquid is a function of depth, D, density, ,...Problem 15P:
The boundary-layer thickness, , on a smooth flat plate in an incompressible flow without pressure...Problem 16P:
The speed, V, of a free-surface gravity wave in deep water is a function of wavelength, , depth, D,...Problem 17P:
Derive an expression for the velocity of very small ripples on the surface of a liquid if this...Problem 18P:
Derive an expression for the axial thrust exerted by a propeller if the thrust depends only on...Problem 19P:
Derive an expression for drag force on a smooth submerged object moving through incompressible fluid...Problem 20P:
The energy released during an explosion, E, is a function of the time after detonation t, the blast...Problem 21P:
Measurements of the liquid height upstream from an obstruction placed in an open-channel flow can be...Problem 22P:
The load-carrying capacity, W, of a journal bearing is known to depend on its diameter, D, length,...Problem 23P:
Derive an expression for the drag force on a smooth object moving through compressible fluid if this...Problem 24P:
A circular disk of diameter d and of negligible thickness is rotated at a constant angular speed, ,...Problem 25P:
Two cylinders are concentric, the outer one fixed and the inner one movable. A viscous...Problem 26P:
The time, t, for oil to drain out of a viscosity calibration container depends on the fluid...Problem 27P:
You are asked to find a set of dimensionless parameters to organize data from a laboratory...Problem 28P:
A continuous belt moving vertically through a bath of viscous liquid drags a layer of liquid, of...Problem 29P:
Derive an expression for the frictional torque exerted on the journal of a bearing if this torque...Problem 30P:
Tests on the established flow of six different liquids in smooth pipes of various sizes yield the...Problem 31P:
The power, P, required to drive a fan is believed to depend on fluid density, , volume flow rate, Q,...Problem 32P:
The sketch shows an air jet discharging vertically. Experiments show that a ball placed in the jet...Problem 33P:
The diameter, d, of bubbles produced by a bubble-making toy depends on the soapy water viscosity, ,...Problem 34P:
Choked-flow nozzles are often used to meter the flow of gases through piping systems. The mass flow...Problem 35P:
A large tank of liquid under pressure is drained through a smoothly contoured nozzle of area A. The...Problem 36P:
Spin plays an important role in the flight trajectory of golf, ping-pong, and tennis balls....Problem 37P:
The power loss, P, in a journal bearing depends on length, l, diameter, D, and clearance, c, of the...Problem 38P:
The thrust of a marine propeller is to be measured during open-water tests at a variety of angular...Problem 39P:
The rate dT/dt at which the temperature T at the center of a rice kernel falls during a food...Problem 40P:
When a valve is closed suddenly in a pipe with flowing water, a water hammer pressure wave is set...Problem 41P:
An airship is to operate at 20 m/s in air at standard conditions. A model is constructed to 1:20...Problem 42P:
An airplane wing of 3 m chord length moves through still air at 15C and 101.3 kPa at a speed of 320...Problem 43P:
A flat plate 1.5 m long and 0.3 m wide is towed at 3 m/s in a towing basin containing water at 20C,...Problem 44P:
This 1:12 pump model using water at 15C simulates a prototype for pumping oil of specific gravity...Problem 45P:
An ocean-going vessel is to be powered by a rotating circular cylinder. Model tests are planned to...Problem 46P:
On a cruise ship, passengers complain about the noise emanating from the ships propellers (probably...Problem 47P:
A 1:3 scale model of a torpedo is tested in a wind tunnel to determine the drag force. The prototype...Problem 48P:
A flow rate of 0:18 m3/s of water at 20C discharges from a 0.3 m pipe through a 0.15 m nozzle into...Problem 49P:
A force of 9 N is required to tow a 1:50 ship model at 4:8 km/h. Assuming the same water in towing...Problem 50P:
An airplane wing, with chord length of 1.5 m and span of 9 m, is designed to move through standard...Problem 51P:
A water pump with impeller diameter of 24 in. is to be designed to move 15 ft3/s when running at 750...Problem 52P:
A model hydrofoil is to be tested at 1:20 scale. The test speed is chosen to duplicate the Froude...Problem 53P:
A ship 120 m long moves through freshwater at 15C at 32 km/h. A 1:100 model of this ship is to be...Problem 54P:
A 1:30 scale model of a cavitating overflow structure is to be tested in a vacuum tank wherein the...Problem 55P:
In some speed ranges, vortices are shed from the rear of bluff cylinders placed across a flow. The...Problem 56P:
A 1:8 scale model of a tractor-trailer rig is tested in a pressurized wind tunnel. The rig width,...Problem 57P:
On a cruise ship, passengers complain about the amount of smoke that becomes entrained behind the...Problem 58P:
When a sphere of 0.25 mm diameter and specific gravity 5.54 is dropped in water at 25C it will...Problem 59P:
The flow about a 150 mm artillery projectile which travels at 600 m/s through still air at 30C and...Problem 60P:
Your favorite professor likes mountain climbing, so there is always a possibility that the professor...Problem 61P:
A 1:50-scale model of a submarine is to be tested in a towing tank under two conditions: motion at...Problem 62P:
Consider water flow around a circular cylinder, of diameter D and length l. In addition to geometry,...Problem 63P:
A 1:10 scale model of a tractor-trailer rig is tested in a wind tunnel. The model frontal area is Am...Problem 64P:
The power, P, required to drive a fan is assumed to depend on fluid density , volume flow rate Q,...Problem 65P:
Over a certain range of air speeds, V, the lift, FL, produced by a model of a complete aircraft in a...Problem 66P:
The pressure rise, p, of a liquid flowing steadily through a centrifugal pump depends on pump...Problem 67P:
An axial-flow pump is required to deliver 0.75 m3/s of water at a head of 15 J/kg. The diameter of...Problem 68P:
A model propeller 1 m in diameter is tested in a wind tunnel. Air approaches the propeller at 50 m/s...Problem 69P:
Consider Problem 7.38. Experience shows that for ship-size propellers, viscous effects on scaling...Problem 70P:
Closed-circuit wind tunnels can produce higher speeds than open-circuit tunnels with the same power...Browse All Chapters of This Textbook
Chapter 1 - IntroductionChapter 2 - Fundamental ConceptsChapter 3 - Fluid StaticsChapter 4 - Basic Equations In Integral Form For A Control VolumeChapter 5 - Introduction To Differential Analysis Of Fluid MotionChapter 6 - Incompressible Inviscid FlowChapter 7 - Dimensional Analysis And SimilitudeChapter 8 - Internal Incompressible Viscous FlowChapter 9 - External Incompressible Viscous FlowChapter 10 - Fluid Machinery
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Me 380 - Fluyd Dynamics For Mechanical Engineers
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ISBN: 9781119072966
EBK FOX AND MCDONALD'S INTRODUCTION TO
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FOX+MCDONALD'S INTRO.TO...-ACCESS+BOX
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FLUID MECHANICS EBOOKW/WILEYPLUS
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ISBN: 9781119445159
Fox and McDonald's Introduction to Fluid Mechanics
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ISBN: 9781118912652
Fox And Mcdonald's Introduction To Fluid Mechanics
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ISBN: 9781119034582
Fox And Mcdonald's Introduction To Fluid Mechanics 9e Binder Ready Version + Wileyplus Registration Card
9th Edition
ISBN: 9781119032038
Fox And Mcdonald's Introduction To Fluid Mechanics
8th Edition
ISBN: 9780470547557
Fluid Mechanics, Desktop Edition
8th Edition
ISBN: 9780470948033
Fox and McDonald's Introduction to Fluid Mechanics
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ISBN: 9781118139448
Introduction to Fluid Mechanics
7th Edition
ISBN: 9780471742999
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