5- Consider two identical glasses of water, one stationary and the other moving on a horizontal plane with constant acceleration. Assuming no splashing or spilling occurs, which glass will have a higher pressure at the (a) front, (b) midpoint, and (c) back of the bottom surface? 6- The water level of a tank on a building roof is 20 m above the ground. A hose leads from the tank bottom to the ground. The end of the hose has a nozzle, which is pointed straight up. What is the maximum height to which the water could rise? What factors would reduce this height?
5- Consider two identical glasses of water, one stationary and the other moving on a horizontal plane with constant acceleration. Assuming no splashing or spilling occurs, which glass will have a higher pressure at the (a) front, (b) midpoint, and (c) back of the bottom surface? 6- The water level of a tank on a building roof is 20 m above the ground. A hose leads from the tank bottom to the ground. The end of the hose has a nozzle, which is pointed straight up. What is the maximum height to which the water could rise? What factors would reduce this height?
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Transcribed Image Text:5- Consider two identical glasses of water, one stationary and the other moving on a horizontal plane
with constant acceleration. Assuming no splashing or spilling occurs, which glass will have a higher
pressure at the (a) front, (b) midpoint, and (c) back of the bottom surface?
6- The water level of a tank on a building roof is 20 m above the ground. A hose leads from the tank
bottom to the ground. The end of the hose has a nozzle, which is pointed straight up. What is the
maximum height to which the water could rise? What factors would reduce this height?
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