FLUID MECHANICS FUND. (LL)-W/ACCESS4th EditionCENGEL Publisher: MCG CUSTOMISBN: 9781266016042
FLUID MECHANICS FUND. (LL)-W/ACCESS
Solutions for FLUID MECHANICS FUND. (LL)-W/ACCESS
Problem 2CP:
A tinysteel cube is suspended in water by a string. If the lengths of the sides of the cube are very...Problem 3CP:
Explain why some people experience nose bleeding and some others experience shortness of breath at...Problem 4CP:
Consider two identical fans, one at sea level and the other on top of a high mountain, running at...Problem 5CP:
Someone claims that the absolute pressure in a liquid of constant density doubles when the depth is...Problem 7P:
A pressure gage connected to a tank reads 500kPa at a location where the atmospheric pressure 94...Problem 8P:
A vacuum gage connected to a chamber reads 25 kPa at a location where the atmospheric pressure is 97...Problem 9EP:
The pressure at the exit of an air compressor is 150 psia. What is this pressure in kPa?Problem 10P:
A diver's watch resists an absolute pressure of 5.5 bar. At an ocean having density of 1025 kg/m3...Problem 11EP:
Show that 1kgf/cm2=14.223psi .Problem 12EP:
The pressure in a water line is 1500 kPa. What is the line pressure in (a) Ibf/ft2 units and (b)...Problem 13P:
Blood pressure is usually measured by rapping a closed air-filled jacket quipped with a pressure...Problem 14P:
The maximum blood pressure in the upper arm of a healthy person is about 120 mmHg. If a vertical...Problem 15P:
Consider a 1.73-m-tall man standing vertically in water and completely submerged in a pool....Problem 16EP:
A manometer is used to measure the air pressure in a tank. The fluid used has a specific gravity of...Problem 17P:
The water in a tank is pressurized by air, and the pressure is measured by a multifluid manometer as...Problem 18P:
Determine the atmospheric pressure at a location where the barometric reading is 735 mmHg. Take the...Problem 19P:
The gagepressure in a liquid at a depth of 2.5 m is read to be 28 kPa. Determine the gage pressure...Problem 20P:
The absolute pressure in water at a depth of 8 m is read to be 175 kPa. Determine (a) the local...Problem 21EP:
A 180-Ibm man has a total foot imprint area of 68 in2. Determine the pressure this man exerts on the...Problem 22P:
Consider a 55-kg woman who has a total foot imprintarea of 400 cm2. She wishes to walk on the snow,...Problem 23P:
A vacuum gage connected to a tank reads 45 kPa at a location where the barometric reading is 755...Problem 24P:
The piston of a vertical piston-cylinder device containing a gas has a mass of 40 kg and a...Problem 25P:
The vacuum pressure of a condenser is given to be 65 kPa. If the atmospheric pressure is 98 kPa,...Problem 26P:
Water from a reservoir is raised in a vertical tube of internal diameter D =30 cm under the...Problem 27P:
The barometer of a mountain hiker reads 980 mbars at the beginning of a hiking trip and 790 mbars at...Problem 28P:
Determine the pressure exerted on a diver at 15 m below the free surface of the sea. Assume a...Problem 29P:
A gas is contained in a vertical, frictionless piston-cylinder device. The piston has a mass of 5 kg...Problem 31P:
The variation of pressure P in a gas with density is given by P=Cp* where C and n and are constants...Problem 32P:
Both a gage and a manometer are attached to a gas tank to measure its pressure. If the reading on...Problem 34P:
The system shown in the figure is used to accurately measure the pressure changes when the pressure...Problem 35P:
The manometer shown in the figure is designed to measure pressure of up to a maximum of 100 Pa. If...Problem 36P:
A manometer containing ( =850kg/m3 ) attached to a tank filled with air. If the oil-level difference...Problem 37P:
A mercury ( =13,600kg/m3 ) is connected to an air duct to measure the pressure inside The difference...Problem 39P:
Consider a U-tube whose arms are open to the atmosphere. Now water is poured into the U-tube from...Problem 40P:
The hydraulic lift in a car repair shop has an output diameter of 45 cm and is to lift cars up to...Problem 41P:
Consider a double-fluid manometer attached to an air pipe shown in Fig. P3-41. If the specific...Problem 42EP:
The pressure in a natural gas pipeline is measured by the manometer shown in Fig. P3-42E with one of...Problem 44P:
The gage pressure of the air in the tank shown in Fit P3-44 is measured to be 50 kPa. Determine the...Problem 45P:
Repeat Prob. 3-44 for a gage pressure of 40 kPa.Problem 46P:
The 500-kg load on the hydraulic lift show in Fig. P3-46 is to be raised by pouring oil ( =7800kg/m3...Problem 47P:
Pressure is often given in terms of a liquid column and is expressed as "pressure head." Express tie...Problem 48P:
Freshwater and seamier flowing in parallel horizontal pipelines are connected to each other by a...Problem 50P:
The pressure difference between an oil pipe and water pipe is measured by a double-fluid manometer,...Problem 51P:
Consider the system shown in Fig. P3-51. If a change of 0.9 kPa in the pressure of air causes the...Problem 52P:
There is water at a height of 1 m in the rube open to the atmosphere (Patm=100kPa) connected to a...Problem 54P:
A simple experiment has long been used to demonstrate how negative pressure prevents water from...Problem 55P:
A multifluid container is connected to a U-tube. as shout in Fig. P3-55. For the given specific...Problem 56P:
A hydraulic lift is to be used to lift a 2500 kg weight by putting a weigh of 25 kg on a piston with...Problem 57P:
On a day in which the local atmospheric pressure is 99.5 kPa, answer each of the following: (a)...Problem 58P:
A U-tube manometer is used to measure the pressure in a vacuum chamber as shown in the sketch. The...Problem 59CP:
Define the resultant hydrostatic force acting on a submerged surface, and the center of pressure.Problem 60CP:
You may have noticed that dams are much thicker at the bottom. Explain why dams are built that way.Problem 61CP:
Someone claims that she can determine the magnitude of the hydrostatic force acting on a plane...Problem 62CP:
A submersed horizontal flat plate is suspended in water by a string attacked at the centroid of its...Problem 63CP:
Consider a submerged curved surface. Explain how you would determine the horizontal component of the...Problem 64CP:
Consider a submersed curved surface. Explain how you would determine the vertical component of the...Problem 65CP:
Consider a circular surface subjected to hydrostatic forces by a constant density liquid. If the...Problem 66EP:
Consider a 200-ft-high, dam filled to capacity. Determine (a) the hydrostatic force on the dam and...Problem 67P:
A cylindrical tank is folly filled with water (Fig. P3-67). In order to increase the flow from the...Problem 68P:
Consider a 8-m-long, 8-m-wide, and 2-m-high aboveground grinning pool that is filled with water to...Problem 69P:
Consider a heavy car submerged in water in a lake with a flat bottom. The driver’s side door of the...Problem 70P:
A room the lower level of a cruise ship has a 40-cm-diaineter circular window. If the midpoint of...Problem 71P:
The water side of the wall of a 70-m-long dam is a quarter circle with a radius of 7 m. Determine...Problem 72P:
A water trough of semicircular cross section of radius 0.6 m consists of two symmetric parts hinged...Problem 73P:
Determine the resultant force acting on the 0.7-m-high and 0.7-m-wide triangular gate shown in Fig...Problem 74P:
A 6-m-high, 5-m-wide rectangular plate blocks the end of a 5-m-deep freshwater channel, as shown in...Problem 76EP:
The flow of water from a reservoir is controlled by a 5-ft-wide L-shaped sate hinged ai point A. as...Problem 77EP:
Repeat Prob. 3-76E for a water height of 6 ft.Problem 78P:
For a gate width of 2 m into the paper (Fig. P3-78), determine the force required to hold the gate K...Problem 79EP:
A long, solid cylinder of radius 2 ft hinged at point A is used as an automatic gate, as shown in...Problem 80P:
An open settling tank shown in the figure contains a liquid suspension. Determine the resultant...Problem 81P:
From Prob. 3-80, knowing that the density of the suspension depends on liquid depth and changes...Problem 82P:
The two sides of a V-shaped water trough are hinged to each other at the bottom where they meet, as...Problem 83P:
Repeat Prob. 3-82 for the case of a partially filled trough with a water height of 0.35 m directly...Problem 84P:
The bowl shown in the figure (the white volume) is to be cast in a pair of molding boxes. When...Problem 85P:
A triangular-shaped gate is hinged at point A, as shown. Knowing that the weight of the gate is 100...Problem 86P:
Gate AB ( 0.60.9m ) is located at the bottom of a tank filled with methyl alcohol (SG = 0.79), and...Problem 87P:
Find the force applied by support BC to the gate AB. The width of the gate and support is 3 m and...Problem 88P:
A concrete block is attached to the sate as shown. If the water level is 1.3 m from the bottom of...Problem 90P:
A 4-m-long quarter-circular gate of radius 3 m and of negligible weight is hinged about its upper...Problem 91P:
Repeat Prob. 3-90 for a radius of 2 m for the gate.Problem 92CP:
What is buoyant force? What causes it? What is the magnitude of the buoyant force acting on a...Problem 94CP:
Consider two 5-cm-diaineter spherical balls-one made of aluminum, the other of iron-submerged in...Problem 96CP:
Consider two identical spherical bails submerged water at different depths. Will the buoyant forces...Problem 98P:
The hull of a boat has a volume of 180 m3, and the total mass of the boat when empty is 8560 kg....Problem 99P:
The density of a liquid is to be determined by an old 1-cm-diameier cylindrical hydrometer whose...Problem 101P:
It is estimated that 90 percent of an iceberg’s volume is below the surface, while only 10 percent...Problem 102P:
One of the common procedures in fitness programs is to determine the fat-to-muscle ratio of the...Problem 104P:
The weight of a body is usually measured by disregarding buoyancy force applied by the air. Consider...Problem 106CP:
Consider a vertical cylindrical container partially filled with water. Now the cylinder is rotated...Problem 107CP:
Consider two identical glasses of water, one stationary and the other moving on a horizontal plane...Problem 108CP:
Consider a glass of water. Compare the water pressures at the bottom surface for the following...Problem 109P:
A water tank is being towed by a truck on a level road, and the angle the free surface makes with...Problem 110P:
Consider two water tanks filled with water. The first tank is 8 m high and is stationary, while the...Problem 112P:
The bottom quarter of a vertical cylindrical tank of total height 0.4 m and diameter 0.3 m is filed...Problem 113P:
A 3-m-diameter, 7-m-long cylindrical tank is completely filled with water. The tank is pulled by a...Problem 114P:
A 30-cm-diameter, 90-cm-high vertical cylindrical container is partially filled with 60-cm-high...Problem 115P:
A fish tank that contains 60-cm-high water is moved in the cabin of an elevator. Determine the...Problem 116EP:
A15-ft-long, 6-ft-high rectangular tank open to the atmosphere is towed by a truck on a level road....Problem 117P:
Consider a tank of rectangular cross-section partially filled with a liquid placed on an inclined...Problem 118EP:
A 3-ft-diameter vertical cylindrical lank open to the atmosphere contains 1-ft-high water. The tank...Problem 119P:
Milk with a density of 1020 kg/m3 is transported on a level road in a 9-m-long, 3-m-diameter...Problem 121P:
The distance between the centers of the two arms of a U-tube open to the atmosphere is 30 cm, and...Problem 122P:
A 1.2-m-diameter, 3-m-high scaled vertical cylinder is completely filled with gasoline whose density...Problem 124P:
A 4-m-diameter vertical cylindrical milk tank rotates at a constant rate of 15 rpm. If the pressure...Problem 125EP:
An 8-ft-long tank open to the atmosphere initially contains 3-ft-high water. It is being towed by a...Problem 129P:
Two vertical and connected cylindrical tanks of diameter D are open to the atmosphere and they...Problem 130P:
The U-tube shown the figure subjected to an acceleration of a (m/s2) to left. If the difference...Problem 132P:
An air-conditioning system requires a 34-m-long section of 12-cm-diameter ductwork to be laid...Problem 133EP:
Determine the pressure exerted on the surface of a submarine cruising 225 ft below the free surface...Problem 134P:
A vertical, frictionless piston-cylinder device contains a gas at 600 kPa. The atmospheric pressure...Problem 135P:
If the rate of rotational speed of the 3-tube system shown in Fig. P3-135 is =10 rad/s, determine...Problem 136P:
The average atmospheric pressure on earth is approximated as a function of altitude by the relation...Problem 140P:
The basic barometer can be used as an alritude-measurins device in airplanes. The ground control...Problem 141P:
The lower half of a 12-m-high cylindrical container is filled with water ( =100kg/m3 ) and the upper...Problem 143P:
A pressure cooker cooks a lot faster than an ordinary pan by maintaining a higher pressure and...Problem 146P:
An oil pipeline and a 1.3-m3 rigid air tank are connected to each other by a manometer, as shown in...Problem 147P:
A 20-cm-diameter vertical cylindrical vessel is rotated about its vertical axis at a constant...Problem 150P:
A gasoline line is connected to a pressure gage through a double-U manometer: as shown in Fig....Problem 153P:
Consider a U-tube filled with mercury as shown in Fig. P3-153. The diameter of the right aim of the...Problem 154P:
The variation of pressure with density in a thick gas layer is given by P = Cp. where C and n are...Problem 155P:
A 3-m-high. 5-m-wide rectangular gale is hinged al the top edge at A and is restrained by a fixed...Problem 157EP:
A semicircular 40-ft-diameter tunnel is to be built under a 150-ft-deep. 800-ft-king lake, as shown...Problem 158P:
A 30-ton. 4-m-diameter hemispherical dome on a level surface is filled with water, as shown in Fig....Problem 159P:
The water in a 25-m-deep reservoir is kept inside by a 90-m-wide wall whose cross section is an...Problem 160P:
A 5-m-long, 4-m-high tank contains 2.5-m-deep water when not in motion and is open to the atmosphere...Problem 162P:
The density of a floating body can be determined by tying weights to the body until both the body...Problem 163P:
A raft is made using a number of logs with 25 cm diameter and 2 m lone, as shown in the figure. It...Problem 164P:
A prismatic timber is at equilibrium in a liquid, as shown in the figure. What is the specific...Problem 165P:
The cylindrical lank containing water accelerates upward with az=2m/s2 while it rotates about its...Problem 166P:
A 30-cm-diameter. 100-cm-hish vertical cylindrical vessel equipped with a vertical tube at the edge...Problem 167P:
The 280-ke, 6-m-wide rectangular gate shown in Fig P3-167 is hinged at t and leans against the floor...Problem 171P:
In order to keep the cone-shaped plus closed as shown in the fore, what would be the maximum air...Problem 172P:
The gage pressure in a pipe is measured by a manometer containing mercury ( =13.600kg/m3 ). The top...Problem 175P:
The atmospheric pressure in a location is measured by a mercury ( =13,600kg/m3 ) barometer. If the...Problem 178P:
Consider the vertical rectangular wall of a water tank with a width of 5 m and a height of 8 m. The...Problem 185P:
Consider a 6-m-diameter spherical sate holding a body of water whose height is equal to the diameter...Problem 193P:
Shoes are to be designed to enable people of up to 80 kg to walk on freshwater or seawater. The...Problem 194P:
The volume of a rock is to be determined without using any volume measurement devices. Explain how...Browse All Chapters of This Textbook
Chapter 1 - Introduction And Basic ConceptsChapter 2 - Properties Of FluidsChapter 3 - Pressure And Fluid StaticsChapter 4 - Fluid KinematicsChapter 5 - Bernoulli And Energy EquationsChapter 6 - Momentum Analysis Of Flow SystemsChapter 7 - Dimensional Analysis And ModelingChapter 8 - Internal FlowChapter 9 - Differential Analysis Of Fluid FlowChapter 10 - Approximate Solutions Of The Navier–stokes Equation
Sample Solutions for this Textbook
We offer sample solutions for FLUID MECHANICS FUND. (LL)-W/ACCESS homework problems. See examples below:
Chapter 1, Problem 1CPChapter 1, Problem 23PChapter 1, Problem 31PChapter 1, Problem 55PChapter 1, Problem 71PChapter 2, Problem 1CPChapter 2, Problem 19PChapter 2, Problem 39PChapter 2, Problem 49P
Given information: The pressure of the air is 95 kPa, the initial temperature is 20°C, the final...Chapter 2, Problem 77PChapter 2, Problem 85PChapter 2, Problem 87PGiven information: The diameter of glass tube is 0.018 in, the contact angle with the glass is 140°,...Chapter 2, Problem 118PChapter 2, Problem 123PChapter 2, Problem 127PChapter 2, Problem 128PGiven: The shear stress used for the Herschel-Bulkley constitute model is τ=τν+K( du dy)m, Yield...Chapter 2, Problem 132PChapter 3, Problem 1CPChapter 3, Problem 26PChapter 3, Problem 48PChapter 3, Problem 49PChapter 3, Problem 51PChapter 3, Problem 55PChapter 3, Problem 67PChapter 3, Problem 72PChapter 3, Problem 78PChapter 3, Problem 79EPChapter 3, Problem 80PChapter 3, Problem 81PChapter 3, Problem 85PChapter 3, Problem 86PChapter 3, Problem 87PChapter 3, Problem 90PChapter 3, Problem 135PThe radius of the semi-circular gate is 0.5 m, specific gravity of fluid in section 1 is 0.91,...Chapter 3, Problem 146PChapter 4, Problem 1CPChapter 4, Problem 23PGiven 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 58PChapter 4, Problem 66PThe shear strain rate is half of the rate of decrease of the angle between two perpendicular lines...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 98PChapter 4, Problem 101PWrite the expression for the two dimensional Poiseuille flow. u=12μdPdx(y2−hy). Here, the distance...Given information: The velocity component along the x direction is...Chapter 4, Problem 120PChapter 4, Problem 121PChapter 5, Problem 1CPChapter 5, Problem 53PChapter 5, Problem 55PChapter 5, Problem 57EPChapter 5, Problem 62PChapter 5, Problem 80PChapter 5, Problem 84PChapter 5, Problem 88PChapter 5, Problem 89PChapter 5, Problem 98PChapter 5, Problem 109PChapter 5, Problem 114PChapter 5, Problem 115PChapter 5, Problem 116PChapter 5, Problem 136PChapter 6, Problem 1CPChapter 6, Problem 23PGiven information: The volume flow rate of the water is 35 L/s, the discharge area for the smaller...Chapter 6, Problem 57PChapter 6, Problem 67PChapter 6, Problem 69PChapter 6, Problem 70PChapter 6, Problem 77PChapter 6, Problem 78PChapter 6, Problem 89PGiven information: The length of the slit is 1.2 m, width of the rectangular slit is 5 mm, water...Chapter 6, Problem 96PChapter 7, Problem 1CPGiven information: The shaft power is W˙, the angular velocity is ω, the fluid density is ρ, the...Chapter 7, Problem 53PChapter 7, Problem 62PChapter 7, Problem 67PThe angular velocity is ω, the fluid density is ρ, the acceleration due to gravity id g, the radius...Chapter 7, Problem 74PGiven information: force pressure gradient =dPdxFlow : steady+ incomprssible down stream distance...In M-L-T system, force = mass×accelerationF = m × a{F} = {mass × meter sec 2}{F} = {M × L t 2}{F} =...Given Information: Top plate speed, Vtop Bottom plate speed, Vbottom Steady flow, incompressible, 2...Chapter 7, Problem 112PChapter 7, Problem 113PChapter 7, Problem 118PGiven information: The following figure shows that two parallel flat plates. Figure-( 1) Assume, at...Chapter 8, Problem 1CPChapter 8, Problem 61PChapter 8, Problem 73PGiven information: The temperature of the water is 70 °F, density of the water is 62.3 lbm/ft3,...Given 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 94PChapter 8, Problem 96PGiven Information: The diameter of the pipe is 6 cm, the length of the pipe is 33 m, the inlet...Chapter 8, Problem 136PChapter 8, Problem 137PGiven information: The diameter of the cast iron pipe is 0.35 m and the length of the cast iron pipe...Given information: The diameter of tank 1 is 30 cm, diameter of tank 2 is 12 cm, diameter of orifice...Chapter 8, Problem 153PGiven information: The swimming pool diameter is 10 m, the swimming pool height is 2 m, the...Chapter 8, Problem 159PThe following figure represents the branched pipes. Figure-(1) Write the expression for the area of...Chapter 9, Problem 1CPChapter 9, Problem 16PGiven 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 87PChapter 9, Problem 93PGiven information: The flow is steady, laminar, two-dimensional and incompressible. The flow is...Chapter 9, Problem 101PChapter 9, Problem 102PChapter 9, Problem 103PGiven information: The assumptions made are stated below: The flow is parallel, steady, and laminar....Chapter 9, Problem 123PChapter 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 29PGiven: 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 90PChapter 10, Problem 91PChapter 10, Problem 97PChapter 10, Problem 108PChapter 10, Problem 110PChapter 10, Problem 113PGiven information: The density of air is 0.8588 kg/m3, the temperature of air is −50°C the pressure...Chapter 11, Problem 1CPChapter 11, Problem 41EPChapter 11, Problem 43PChapter 11, Problem 48PChapter 11, Problem 68PChapter 11, Problem 88PChapter 11, Problem 96PChapter 11, Problem 101EPGiven information: Length=3 m Diameter=0.5 m Atmospheric pressure=87 kPa Temperature=20∘C=295 K...Given information: Mass of tractor=17,000 kg Frontal area=9.2 m2 Rolling resistance coefficient=0.05...Given 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 1CPGiven: 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: The properties of air are: k = 1.4R = 0.287 kJ/kg·K,cp = 1.005 kJ/kg·K The properties of...Chapter 12, Problem 102PGiven: Temperature T1 = 480R Velocity V1=100 m/s Pressure P1=8 psia Mach number Ma1=2.0 Force...Chapter 12, Problem 126EPGiven: Ambient temperature at inlet T1= 500 K Stagnation Pressure P01=P1=220 psia Exit pressure P2 =...Given: The properties of air: R =0.280 kJ/kg.K cp=1.005 kJ/kg.K k=1.33 Inlet Temperature T1=510K...Given: Mach number k=1.2,1.4 and 1.6 range of 0≤Ma≤1. Calculation: Equation is given by m. R T 0...Chapter 13, Problem 1CPGiven Information: The water flow rate is 10 m3/s and the bottom slope is 0.0015 Write the...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...Chapter 13, Problem 61PChapter 13, Problem 85PGiven information: Velocity of water flow is 10 m/s, the flow depth is 0.65 m, the bump height is 30...Given Information: The flow depth of upstream weir is 5 ft and the height of the gate opening is 1.1...Given information: The flow depth before the jump is 0.7 m, the flow depth after the jump is 5 m,...Given information: The channel angle is 0.5°. Write the expression for flow rate using manning's...Chapter 13, Problem 140PGiven information: Water is flowing through a sluice gate, the velocity of water before reaching the...Chapter 13, Problem 143PChapter 13, Problem 144PGiven information: The height of bump is 20 cm, initial velocity of flow is 1.25 m/s, the flow depth...Chapter 13, Problem 167PChapter 14, Problem 1CPChapter 14, Problem 35EPChapter 14, Problem 36EPChapter 14, Problem 41PChapter 14, Problem 47EPChapter 14, Problem 55EPChapter 14, Problem 56EPChapter 14, Problem 57EPChapter 14, Problem 61PChapter 14, Problem 62PGiven information: The number of rotations of centrifugal pump is 750 rpm. The inlet radius is 12 cm...Given information: The number of rotations of centrifugal pump is 750 rpm. The inlet radius is 12 cm...Given information: The diameter of the turbine A is 1.50 mand the number of rotation for the turbine...Chapter 14, Problem 123PChapter 15, Problem 1CP
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