Solutions for Applied Fluid Mechanics: Global Edition
Problem 4.1PP:
figure 4.2 shows a vacuum tank with a flat circular observation window in one end. If the pressure...Problem 4.2PP:
The flat left end of the tank shown in Fig. 4.21 is secured with a bolted flange. If the inside...Problem 4.3PP:
An exhaust system for a room creates a partial vacuum in the room of 1.20 in of water relative to...Problem 4.4PP:
A piece of 14 -in Schedule 40 pipe is used as a pressure vessel by capping its ends. Compute the...Problem 4.5PP:
A pressure relief valve is designed so that the gas pressure in the tank acts on a piston with a...Problem 4.6PP:
A gas-powered cannon shoots projectiles by introducing nitrogen gas at 20.5 MPa into a cylinder...Problem 4.7PP:
The egress hatch of a manned spacecraft is designed so that the internal pressure in the cabin...Problem 4.8PP:
A tank containing liquid ammonia at 77F has a flat horizontal bottom. A rectangular door, 24 in by...Problem 4.9PP:
The bottom of a laboratory vat has a hole in it to allow the liquid mercury to pour out. The hole is...Problem 4.10PP:
A simple shower for remote locations is designed with a cylindrical tank 500mm in diameter and 1.800...Problem 4.11PP:
Calculate the total force on the bottom of the closed tank shown in Fig. 4.23 if the air pressure is...Problem 4.12PP:
If the length of the tank in Fig. 4.24 is 1.2m, calculate the total force on the bottom of the tank.Problem 4.13PP:
An observation port in a small submarine is located in a horizontal surface of the sub. The shape of...Problem 4.14PP:
A rectangular gate is installed in a vertical wall of a reservoir, as shown in Fig. 4.26 Compute the...Problem 4.15PP:
'4.15 A vat has a sloped side, as shown in Fig. 4.27. Compute the resultant force on this side if...Problem 4.16PP:
The wall shown in Fig. 4.28 is 20 ft long, (a) Calculate the total force on the wall due to water...Problem 4.17PP:
If the wall in Fig. 4.29 is 4m long, calculate the total force on the wall due to the oil pressure....Problem 4.18PP:
Refer to Fig. 4.30Problem 4.19PP:
Refer to Fig. 4.31Problem 4.20PP:
Refer to Fig.4.32Problem 4.21PP:
Refer to Fig 4.33Problem 4.22PP:
Refer to Fig. 4.34Problem 4.23PP:
Refer to Fig. 4.35 (?Problem 4.25PP:
4.25 Refer to Fig 4.37Problem 4.26PP:
Refer to Fig.4.38Problem 4.27PP:
Refer to Fig.4.39Problem 4.28PP:
Refer to Fig.4.40Problem 4.29PP:
Refer to Fig 4.41Problem 4.30PP:
figure 4.42i5 shows a gasoline tank filled into the filler pipe. The gasoline has a specific gravity...Problem 4.31PP:
If the tank in Fig. 4.42 is filled just to the bottom of the filler pipe with gasoline (sg = 0.67 ),...Problem 4.32PP:
If the tank in Fig. 4.42 is only half full of gasoline (sg = 0.67 ), calculate the magnitude and...Problem 4.33PP:
For the water tank shown in Fig. 4.43, compute the magnitude and location of the total force on the...Problem 4.34PP:
For the water tank shown in Fig. 4.43, compute the magnitude and location of the total force on each...Problem 4.35PP:
For the water tank shown in Fig. 4.43, compute the magnitude and location of the total force on the...Problem 4.36PP:
For the orange-drink tank shown in Fig. 4.32, compute the magnitude and location of the total force...Problem 4.37PP:
For the orange-drink tank shown in Fig. 4.32, compute the magnitude and location of the total force...Problem 4.38PP:
For the oil tank shown in Fig. 4.35, compute the magnitude and location of the total force on each...Problem 4.39PP:
For the oil tank shown in Fig. 4.35; compute the magnitude and location of the total force on the...Problem 4.40PP:
figure 4.44 shows a rectangular gate holding water behind it. If the water is 6.00 ft deep, compute...Problem 4.41PP:
figure 4.45 shows a gate hinged at its bottom and held by a simple support at its top. The gate...Problem 4.42PP:
figure 4.46 shows a tank of water with a circular pipe connected to its bottom. A circular gate...Problem 4.43PP:
Repeat Problem 4.19(Fig. 4.31), except that the tank is now sealed at the top with a pressure of...Problem 4.44PP:
Repeat Problem 4.22 (Fig. 4.32), except that the tank is now sealed at the top with a pressure of...Problem 4.45PP:
Repeat Problem 4.26 (Fig. 4.38 ). except that the tank is now sealed at the top with a pressure of...Problem 4.46PP:
Repeat Problem 4.28 (Fig. 4.40 ), except that the tank is now sealed at the top with a pressure of...Problem 4.47PP:
Use Fig 4.47. The surface is 2.00m long.Problem 4.48PP:
Use Fig.4.48. The surface is 2.50m long.Problem 4.49PP:
Use Fig.4.49. The surface is 5.00 ft longProblem 4.50PP:
Use Fig.4.50. The surface is 4.50 ft long.Problem 4.51PP:
Use Fig.4.51.The surface is 4.00 m long.Problem 4.52PP:
Use Fig .4.52. The surface is 1.50m longProblem 4.53PP:
Use Fig. 4.53. The surface is 1.50m long.Problem 4.54PP:
Use Fig. 4.54. The surface is 60 in longProblem 4.55PP:
Repeat Problem 4.47 using Fig. 4.47, except that there is now 7.50 kPa air pressure above the fluid.Problem 4.56PP:
Repeat Problem 4.48 using Fig. 4.48, except that there is now 4.65 kPa air pressure above the fluid.Problem 4.57PP:
The tank in Fig. 4.55 has a view port in the inclined side. Compute the magnitude of the resultant...Problem 4.58PP:
Insulated concrete forms (ICFs) are becoming more and more common for a variety of reasons including...Problem 4.59PP:
Lacks are installed in rivers to allow boats to pass safely around a dam and through the associated...Problem 4.60PP:
When a dam is installed in a river that has salmon, an alternative path of travel for spawning is...Problem 4.61PP:
A wealthy eccentric is interested in having an entire interior wall of his home converted to a...Problem 4.62PP:
A pneumatic cylinder like the one shown in Fig. 4.59 is used to push a box on an automated packaging...Problem 4.63PP:
Determine the magnitude and the location of the force of water pushing on the semi-circular window...Problem 4.64PP:
For the hinged gate shown in Fig. 4.61, determine the magnitude, direction, and location of the...Problem 1CAEA:
Write a program to solve Problem 4.41 with any combination of data for the variables in Fig 4.45,...Problem 2CAEA:
Write a program to solve Problem 4.42 (Fig. 4.46) with any combination of data, including the size...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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