College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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- An ideal incompressible fluid flows through a pipe of diameter 5.9 cm at a speed of 4.0 m/s. What volume of water passes any single location in the pipe over 3.9 s? Give your answer in m³.arrow_forwardA tank holds a large amount of water. A pipe is connected to the tank at the upper end and is open to the air at the lower end (see figure).The upper end of the pipe is h1 = 1.90-m above the ground. The lower end of the pipe is h2 = 0.570-m above the ground. The water at the upper end of the pipe has a speed of 0.640 m/s. The water at the lower end of the pipe has a speed of 8.50 m/s.What is the pressure in the water in the pipe at the upper end of the pipe?arrow_forward4. A garden hose having an internal diameter of 3.5 cm is connected to a lawn sprinkler that consist merely of an enclosure with 12 holes, each 0.5 cm in diameter. If the water in the hose has a speed of 3 m/s, at what speed does it leaves the sprinkler holes?arrow_forward
- A garden hose having with an internal diameter of 1.7 cm is connected to a (stationary) lawn sprinkler that consists merely of an container with 23 holes, each 0.20 cm in diameter. If the water in the hose has a speed of 0.93 m/s, at what speed does it leave the sprinkler holes? m/sarrow_forwardA fluid passes through the tube with a mass flow rate of 1.50 kg/s. If the tube's diameter narrows to half its original diameter, then its mass flow rate will be, 0.375 kg/s 0.75 kg/s 1.06 kg/s 1.50 kg/s 2.12 kg/s 3.0 kg/s 6.0 kg/sarrow_forwardA student fills a tank of radius r with water to a height of h1 and pokes a small, 1.0 cm diameter hole at a distance h2 from the bottom of the tank. The water flows out of the small hole into an empty, 0.2 m-diameter container placed below the tank. The student uses a garden hose to keep the water level in the tank at the original height. What is the velocity of the water as it leaves the hole near the bottom of the tank? let h1=0.55m let h2=0.12m r=0.5m 2. What is the volume flow rate of water from the garden hose into the tank? (Hint: What is the flow rate out of the tank?) 3. After 60 seconds of operation, what is the water pressure at the bottom of the container that is being used to catch the water leaving the tank? let h=1.7marrow_forward
- 1.arrow_forwardQuestion 3 (1 point) 1.00 L (0.00100 m*3) of water is poured into a large container. 100 g of ice is added to the container. The ice floats freely and does not touch the bottom of the container. The densigy of ice is 917 kg/m. When the ice melts, what happens to the level of the water in the container? The water level rises. The water level stays the same. The water level falls. There is not enough information to tell.arrow_forwardBarrow_forward
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