1. At one point in a pipeline the water's speed is 3.00 ms and the gauge...
At one point in a pipeline, the water's speed is 3.00 m/s and the gauge pressure is 3.75×10^4 Pa . Find the gauge pressure at a second point in the line 11.0 m lower than the first if the pipe diameter at the second point is twice that at the first. Express your answer in pascals.
2. At one point in a pipeline the water’s speed is 3.00 m/s and the gauge pressure is 5.00∙104 Pa. Find the gauge pressure at a second point in the line, 11.0 m lower than the first, if the pipe diameter at the second point is twice that at the first. Note: density of water is 1000 kg/m3.
At one point in a pipeline the water’s speed is 3.00 m/s and the gauge pressure is 5.00∙104 Pa. Find the gauge pressure at a second point in the line, 11.0 m lower than the first, if the pipe diameter at the second point is twice that at the first.Note: density of water is 1000 kg/m3.
At one point in a pipeline the water's speed is 3.00m/s and the gauge pressure is 5.00×104Pa Find the gauge pressure at a second point in the line, 11.0m lower than the first, if the pipe diameter at the second point is twice that at the first.
6. Fluids (16 points). At one point in a vertical pipeline the water s d is 3.00 m/s and the pressure is the line, 12.0 m lower than the first, the diameter of the pipe is at the first (Pwater 1000 kg/m3 the second point. (b, points) Find the pressure at the second point. 5.00 × 105 Pa. At a second point in twice that kg/m3). ( a, 8 points) Find the water's speed at
At a certain point in a horizontal pipeline, the water's speed is 3.50 m/s and the gauge pressure is 2.30×104 Pa . Part A Find the gauge pressure at a second point in the line if the cross-sectional area at the second point is twice that at the first. Please shwo all your work.
Water moves through a constricted pipe in steady, ideal flow. At the lower point shown in the figure below, the pressure is P1 = 1.70 x 104 Pa, and the pipe diameter is 8.0 cm. At another point y = 0.40 m higher, the pressure is P2 = 1.30 x 104 Pa and the pipe diameter is 4.00 cm. (a) Find the speed of flow in the lower section. m/s (b) Find the speed of flow in the upper section....
A brine solution with a density of 1230 kg/m3 moves through a constricted pipe in steady, ideal flow. At the lower point shown in the figure below, the pressure is P1 = 1.95 × 104 Pa, and the pipe diameter is 5.00 cm. At another point y = 0.35 m higher, the pressure is P2 1.00 104 Pa and the pipe diameter is 2.50 cm. P2 (a) Find the speed of flow (in m/s) in the lower section m/s (b)...
diameter the hole. of how 42. Water moves through a constricted pipe in steady, ideal flow. At the lower point shown in Figure P14.42, the pressure is P1.75 X 101 Pa and the pipe diameter is 6.00 cm. At another point y0.250 m higher, the pressure is P2 1.20 X 104 Pa and the pipe diameter is 3.00 cm. Find the speed of flow (a) in the lower section and (b) in the upper section. (c) Find the volume flow...
The water moves through a pipe in an ideal flow, as the figure shows. At the lowest point of the pipe the pressure is P1 = 1.76 x 104 Pa and the diameter of the pipe is 4.00 cm. At the other point of the pipe, which is at a height of 0.280 m, the pressure is P2 = 1.30 x 104 Pa and the diameter of the pipe is 2.00 cm. Find the speed of the water flow (a)...