College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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A fluid flows through a pipe with cross-sectional
area 0.47 m2 at a speed of 3.8 m/s. What is the
volume flow rate of the fluid in the unit of m3/s?
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- Water flows through a pipe shaped as shown here. The pressure at the lower end of the pipe is 304 kPa and the fluid velocity is 4.00 m/s. The upper end of the pipe is 0.600 m higher and the cross-sectional area is 1/3 of the area at the lower end. Calculate the velocity at the upper end of the pipe.Calculate the pressure at the upper end of the pipe.arrow_forwardWhen one person shouts at a football game, the sound intensity level at the center of the field is 67.4 dB. When all the people shout together, the intensity level increases to 94.8 dB. Assuming that each person generates the same sound intensity at the center of the field, how many people are at the game? Number i Unitsarrow_forwardA liquid is flowing through a 75.8 squared pipe. The pipe is then reduced to 16.5cm squared and the speed of the liquid is measured to be 17.5m/s. What was the speed of the liquid in the larger pipe?arrow_forward
- The water pipe shown in the figure has at its intake a cross sectional area of 0.74 m² and a water flow speed of 0.4 m/s. The outlet of the pipe has a smaller cross-sectional area and a water flow speed of 9.5 m/s. The intake is at a distance D= 180 m above the outlet. D Pw 10 kg/m³: g-9.8 m/s² Question 9: The cross-sectional area of the outlet is A. 17.575 m² B. 0.031 m² C. 0.057m² D. None of the above A B C D Option O O O Question 10: The pressure difference Poutlet-Piniet is A. 1718955 Pa B. 1764000 Pa C. 45045 Pa A B Option O O Intake P Outlet D. None of the above C D Oarrow_forwardA cylindrical container with a cross-sectional area of 66.2 cm² holds a fluid of density = 943 kg/m³. At the bottom of the container the pressure is 114 kPa. Assume Pat 101 kPa. What is the depth of the fluid, in meters?arrow_forwardWater flows through a water hose at a rate of Q1 = 740 cm3/s, the diameter of the hose is d1 = 2.76 cm. A nozzle is attached to the water hose. The water leaves the nozzle at a velocity of v2 = 10.4 m/s. Enter an expression for the cross-sectional area of the hose, A1, in terms of its diameter, d1. Calculate the numerical value of A1, in square centimeters. Enter an expression for the speed of the water in the hose, v1, in terms of the volume flow rate Q1 and cross-sectional area A1. Calculate the speed of the water in the hose, v1 in meters per second. Enter an expression for the cross-sectional area of the nozzle, A2, in terms of v1, v2 and A1. Calculate the cross-sectional area of the nozzle, A2 in square centimeters.arrow_forward
- Glycerin flows through a 6.0 cm diameter pipe at 0.98 m/s. What is the fluid’s speed in a 3.5 cm diameter pipe that connects with it, both pipes are flowing full.arrow_forwardA large diameter closed top tank is filled with a depth of 3 meters of a fluid (density 1200 kg/m3). A small pipe leading from the bottom of the tank must carry the fluid some height above the fluid level in the tank. a) If a pressure of 2.5 Atmospheres is maintained in the space above the fill line in the tank how high above the fill line can the pipe carry the fluid and still provide an exit speed of 2 m/sec for the fluid out of the pipe? (the pressure at the exhaust end of the pipe is 1 atmosphere or about 1 x 105 pascal) If the pipe diameter is 2 cm, what will be the volume rate of flow (m3 /sec)arrow_forwardThe flow rate for a typical human aorta is approximately 90 cm3/s. If the aorta has a diameter of 2.0 cm, how fast is the blood moving in cm/s?arrow_forward
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