Solutions for Applied Fluid Mechanics: Global Edition
Problem 3.1PP:
Write the expression for computing the pressure in a fluid.Problem 3.2PP:
Define absolute pressureProblem 3.3PP:
Define gage pressureProblem 3.4PP:
Define atmospheric pressureProblem 3.5PP:
Write the expression relating gage pressure, absolute pressure, and atmospheric pressure,Problem 3.6PP:
State whether statements 3.6-3.10 are (or can be) true or false. For those that are false, explain...Problem 3.7PP:
State whether statements 3.6-3.10 are (or can be) true or false. For those that are false, explain...Problem 3.8PP:
State whether statements 3.6-3.10 are (or can be) true or false. For those that are false, explain...Problem 3.9PP:
State whether statements 3.6-3.10 are (or can be) true or false. For those that are false, explain...Problem 3.10PP:
State whether statements 3.6-3.10 are (or can be) true or false. For those that are false, explain...Problem 3.11PP:
State whether statements 3.6-3.10 are (or can be) true or false. For those that are false, explain...Problem 3.12PP:
State whether statements 3.6-3.10 are (or can be) true or false. For those that are false, explain...Problem 3.13PP:
State whether statements 3.6-3.10 are (or can be) true or false. For those that are false, explain...Problem 3.14PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.15PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.16PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.17PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.18PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.19PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.20PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.21PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.22PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.23PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.24PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.25PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.26PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.27PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.28PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.29PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.30PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.31PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.32PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.33PP:
Problems 3.14-3.33 require that you convert the given pressure from gage to absolute pressure or...Problem 3.34PP:
If milk has a specific gravity of 1.08, what is the pressure at the bottom of a milk can 550 mm...Problem 3.35PP:
The pressure in an unknown fluid at a depth of 4.0 ft is measured to be 1.820 psig Compute the...Problem 3.36PP:
The pressure at the bottom of a tank of propyl alcohol at 25C must be maintained at 52.75 kPa(gage)....Problem 3.38PP:
A water storage tank is on the roof of a factory building and the surface of the water is 50.0 ft...Problem 3.39PP:
An open tank contains ethylene glycol at 25C. Compute the pressure at a depth of 3.0Problem 3.40PP:
For the tank of ethylene glycol described in Problem 3.39. compute the pressure at a depth of 12.0m.Problem 3.41PP:
Figure 3.19 shows a diagram of the hydraulic system fora vehicle lift. An air compressor maintains...Problem 3.42PP:
Figure 3.20 shows a clothes washing machine The pump draws fluid from the tub and delivers it to the...Problem 3.43PP:
An airplane is flying at 10.6km altitude. In its non pressurized cargo bay is a container of mercury...Problem 3.44PP:
For the tank shown in Fig. 3.21, determine the reading of the bottom pressure gage in psig if the...Problem 3.45PP:
For the tank shown in Fig. 3.21, determine the reading of the bottom pressure gage in psig if the...Problem 3.46PP:
For the tank shown in Fig. 3.21. determine the reading of the bottom pressure gage in psig if the...Problem 3.47PP:
For the tank shown in Fig. 3.21 determine the depth of the oil h if the reading of the bottom...Problem 3.48PP:
For the tank in Fig. 3.22, compute the depth of the oil if the depth of the water is 2.80m and the...Problem 3.49PP:
For the tank in Fig. 3.22, compute the depth of the water if the depth of the oil is 6.90m and the...Problem 3.50PP:
Figure 3.22 represents an oil storage drum that is open to the atmosphere at the top Some water was...Problem 3.51PP:
A storage tank for sulfuric acid is 1.5m in diameter and 4.0m high. If the acid has a specific...Problem 3.52PP:
A storage drum for crude oil ( sg=0.89 ) is 32 ft deep and open at the top. Calculate the pressure...Problem 3.53PP:
The greatest known depth in the ocean is approximately 11.0km. Assuming that the specific weight of...Problem 3.54PP:
Figure 3.23 shows a closed tank that contains gasoline floating on water. Calculate the air pressure...Problem 3.55PP:
Figure 3.24 shows a closed container holding water and oil. Air at 34 kPa below atmosperic pressure...Problem 3.56PP:
Determine the pressure at the bottom of the tank in Fig.3.25Problem 3.57PP:
Describe a simple J-tube manometerProblem 3.58PP:
Describe a differential U-tube manometer.Problem 3.59PP:
Describe a well-type manometer.Problem 3.60PP:
Describe an inclined well-type manometer.Problem 3.61PP:
Describe a compound manometer.Problem 3.62PP:
Water is in the pipe shown in Fig. 3.26Calculate the pressure at point A in kPa(gage)Problem 3.63PP:
For the differential manometer shown in Fig. 3.27, calculate the pressure difference between points...Problem 3.64PP:
For the manometer shown in Fig. 3.28, calculate (pA - Pb)Problem 3.65PP:
For the manometer shown in Fig. 3.29, calculate (pA - Pb)Problem 3.69PP:
Figure 3.33 shows a manometer being used to indicate the difference in pressure between two points...Problem 3.70PP:
For the well-type manometer in Fig. 3.34, calculate (PA.Problem 3.71PP:
Figure 3.35 shows an inclined well-type manometer in which the distance L indicates the movement of...Problem 3.72PP:
a. Determine the gage pressure at point A in Fig. 3.36 b. If the barometric pressure is 737mm of...Problem 3.73PP:
What is the function of a barometer?Problem 3.74PP:
Describe the construction of a barometer.Problem 3.75PP:
Why is mercury a convenient fluid to use in a barometer?Problem 3.76PP:
If water were to be used instead of mercury in a barometer, how high would the water column be?Problem 3.77PP:
What is the barometric pressure reading in inches of mercury corresponding to 14.696Problem 3.78PP:
What is the barometric pressure reading in millimeters of mercury corresponding to 101.325 kPa(abs)?Problem 3.80PP:
By how much would the barometric pressure reading decrease from its sea-level value at an elevation...Problem 3.81PP:
Denver, Colorado, is called the "Mile-High City" because it is located at an elevation of...Problem 3.82PP:
The barometric pressure is reported to be 28.6 in of mercury. Calculate the atmospheric pressure in...Problem 3.83PP:
A barometer indicates the atmospheric pressure to be 30.65 in of mercury. Calculate the atmospheric...Problem 3.84PP:
What would be the reading of a barometer in inches of mercury corresponding to an atmospheric...Problem 3.86PP:
The pressure in a heating duct is measured to be 5.37 in H2O Express this pressure in psi and Pa.Problem 3.87PP:
The pressure in a ventilation duct at the inlet to a fan is measured to be H2O Express this pressure...Problem 3.88PP:
The pressure in an air conditioning duct is measured to be 3.24mm Hg. Express this pressure in Pa...Problem 3.89PP:
The pressure in a compressed natural gas line is measured to be 21.6 mmHg. Express this pressure in...Problem 3.94PP:
A passive solar water heater is to be installed on the roof of a multi-story building. The heater...Problem 3.95PP:
The elevated tank similar to the one shown in Fig. 3.37 is part of a water delivery system to be...Problem 3.97PP:
A concrete form used to pour a basement wall is to hold wet concrete mix ( sg=2.6 ) during...Problem 3.98PP:
An environmental instrumentation package is to be designed to be lowered into the Mariana Trench to...Problem 3.101PP:
A meteorologist reports a "high pressure system" with barometric pressure of 790mm of mercury and...Browse All Chapters of This Textbook
Chapter 1 - The Nature Of Fluids And The Study Of Fluid MechanicsChapter 2 - Viscosity Of FluidsChapter 3 - Pressure MeasurementChapter 4 - Forces Due To Static FluidsChapter 5 - Buoyancy And StabilityChapter 6 - Flow Of Fluids And Bernoulli’s EquationChapter 7 - General Energy EquationChapter 8 - Reynolds Number, Laminar Flow, Turbulent Flow, And Energy Losses Due To FrictionChapter 9 - Velocity Profiles For Circular Sections And Flow In Noncircular SectionsChapter 10 - Minor Losses
Chapter 11 - Series Pipeline SystemsChapter 12 - Parallel And Branching Pipeline SystemsChapter 13 - Pump Selection And ApplicationChapter 14 - Open-channel FlowChapter 15 - Flow MeasurementChapter 16 - Forces Due To Fluids In MotionChapter 17 - Drag And LiftChapter 18 - Fans, Blowers, Compressors, And The Flow Of GasesChapter 19 - Flow Of Air In Ducts
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Pearson eText Applied Fluid Mechanics -- Instant Access (Pearson+)
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Applied Fluid Mechanics
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EBK APPLIED FLUID MECHANICS
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Applied Fluid Mechanics (7th Edition)
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Applied Fluid Mechanics (7th Edition)
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ISBN: 9780131723535
Applied Fluid Mechanics (6th Edition)
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Applied Fluid Mechanics
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ISBN: 9780135577158
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