Q9 (5 pts): Water flows under the sluice gate as shown in the figure below. If...
According to the figure, water flows under the sluice gate. Determine the approximate flowrate per unit width of the channel.
Water flows under the partially opened sluice gate, which is in a rectangular channel. Suppose that yA =7.5 m and yB = 2.5 m. (Figure 1) Part A Determine if a hydraulic jump forms. Hydraulic jump cannot occur. Hydraulic jump can occur. PartB Find the depth yc at the downstream end of the jump.
Water (p = 1000kg/m3) is flowing under a sluice gate as shown in the figure above. The depth of the flow leaving the gate is 0.38m, and the depth of the flow after the hydraulic jump is 20.1m. What is the power dissipated in the hydraulic jump per metre width of channel to the nearest kW?
Problem 12.29 8 of 13 1 Review Water flow passes under the sluice gate. Suppose that Y1 = 6 m and y2 = 1.4 m. (Figure 1) Part A Determine the volumetric flow of water through the gate. Express your answer to three significant figures and include the appropriate units. Figure < 1 of 1 0 μΑ ? 4 m Q = Value Units Submit Request Answer Problem 12.29 < 8 of 13 Review Water flow passes under the sluice...
Water flows under the partially opened sluice gate, which is in a rectangular channel. If the water has the depth shown, determine if a hydraulic jump forms, and if so, find the depth yc at the downstream end of the jump. 6 m ус 6 m ус
A flow of 7200 ft3/min passes under the sluice gate. At depth yo = 6.5 ft the water is essentially at rest. (Figure 1) Y2 = 1.71 ft Submit Previous Answers Correct Figure < 1 of 1 Part B 4 ft Determine the depth yi just before the gate. Express your answer to three significant figures and include the appropriate units. μΑ ? y = 4.93 yo Submit Previous Answers Request Answer X Incorrect; Try Again; 4 attempts remaining Water...
2. The sluice gate shown is in a channel that is 4 feet wide. The depth of yo is 6 feet and the depth of yı is 1 feet. Assume no loss of energy. a. What are the velocities Vo and Vi (in ft/s)? b. What is the discharge Q (in cfs)? yo У1 The sluice gate shown is in a channel that is 4 feet wide. The depth of yo is 6 feet, the depth of yi is 1.0...
Q4 (20 pts): Water flows steadily through the funnel shown in the figure below. Throughout most of the funnel the flow is approximately radial (along rays from 0) with a velocity of V = c/rwhere r is the radial coordinate and c is a constant. If the velocity is 0.5 m/s when r=0.2 m determine: (a) the acceleration magnitude at point A, (b) the acceleration magnitude at point B. 12 m T 0.6 m 0.2 m
A flow passes under the sluice gate. At the depth y0 = 12 ft the water is essentially at rest. (Figure 1) Part A Determine the volumetric flow through the channel as a function of depth yz measured in fit
Draw the Possible GVF profiles for the following scenario "Water is held back behind a sluice gate placed on a flat-bed as an H2. It is then released through a small opening under the gate below the critical depth. It soon enters a section with steep slope, which transitions into one with a mild slope. There is a free outfall at the end of the mild slope." Since the question has been presented in words you will have to draw...