A cylinder has a diameter of 16cm (Figure 1) . The water level in the cylinder is maintained at a constant height of 0.53m .
If the diameter of the spout pipe is 0.48cm , how high is h, the vertical stream of water? (Assume the water to be an ideal fluid.)
Express your answer using two significant figures.

A cylinder has a diameter of 16cm (Figure 1) . The water level in the cylinder is maintained at a constant height of 0....
Water at a gauge pressure of 3.8 atm at street level flows into an office building at a speed of 0.63 m/s through a pipe 5.4 cm in diameter. The pipe tapers down to 2.9 cm in diameter by the top floor, 18 m above, where the faucet has been left open. (Figure 1) Calculate the flow velocity in the pipe on the top floor. Assume no branch pipes and ignore viscosity. Express your answer using two significant figures UE...
Water flows at a rate of 22 L/min through a horizontal 7.0-cm-diameter pipe under a pressure of 17.0 Pa . At one point, calcium deposits reduce the cross-sectional area of the pipe to 21 cm2 . What is the pressure at this point? (Consider the water to be an ideal fluid.) Express your answer using two significant figures.
Water flows at a rate of 21 L/min through a horizontal 8.0-cm-diameter pipe under a pressure of 3.8 Pa . At one point, calcium deposits reduce the cross-sectional area of the pipe to 39 cm2 . What is the pressure at this point? (Consider the water to be an ideal fluid.) Express your answer using two significant figures. p= Pa
Water at a gauge pressure of P = 4.8 atm at street level flows into an office building at a speed of 0.92 m/s through a pipe 5.8 cm in diameter. The pipe tapers down to 2.8 cm in diameter by the top floor, 16 m above (Figure 1). Assume no branch pipes and ignore viscosity. Calculate the flow velocity in the pipe on the top floor. Express your answer to two significant figures and include the appropriate units. Calculate...
Pipe AB has a diameter of 40 mm (Figure 1). The pipe and the water it contains have a total mass of 12 kg Part A If the tensile force developed in the pipe at point A cannot exceed 190 N, determine the maximum allowable volumetric flow through the pipe. Express your answer to three significant figures and include the appropriate units. Q- Value Units Submit Provide Feedback Next > Figure of 1 0.5 m 60P
3. (3 points) A tank of diameter D is filled with water up to a height h above the bottom of the tank (Figure 3). At the bottom of the tank is a hole of diameter d. Assume that the water flows out of the hole with a laminar flow and that the difference in atmospheric pressure between the top and the bottom of the tank is negligible Figure 3: A lank draining a) What speed will the water have...
A graduated cylinder is half full of mercury and half full of water. Assume the height of the cylinder is 0.23 m and don't forget about atmospheric pressure. Calculate the pressure at the bottom of a graduated cylinder. (Express your answer to two significant figures.)
ConstantsI Periodic Table Part A Water at a gauge pressure of 3.8 atm at street level flows into an office building at a speed of 0.68 m/s through a pipe 5.5 cm in diameter. The pipe tapers down to 3.0 cm in diameter by the top floor, 18 m above, where the faucet has been left open. (Figure 1) Calculate the flow velocity in the pipe on the top floor. Assume no branch pipes and ignore viscosity Express your answer...
A graduated cylinder contains 16.5 mL of water. What is the new water level after 39.4 g of silver metal with a density of 10,5 g/mL is submerged in the water? Express your answer using three significant figures. Part B A thermometer containing 7.4 g of mercury has broken. If mercury has a density of 13.6 g/mL, what volume spilled? Express your answer using two significant figures.
Water at a gauge pressure of 3.8 atm at street level flows into an office building at a speed of 0.65 m/s through a pipe 5.4 cm in diameter. The pipe tapers down to 2.9 cm in diameter by the top floor, 18 m above, where the faucet has been left open. A) Calculate the flow velocity in the pipe on the top floor. Assume no branch pipes and ignore viscosity. Express your answer using two significant figures. B) Calculate...