The figure shows a stream of water flowing through a hole at depth h = 9.66 cm in a tank holding water to height H = 31.1 cm. (a) At what distance x does the stream strike the floor? (b) At what depth should a second hole be made to give the same value of x? (c) At what depth should a hole be made to maximize x?
The figure shows a stream of water flowing through a hole at depth h = 9.66 cm in a tank holding water to height H = 31....
The figure shows a stream of water flowing through a hole at depth h = 19.5 cm in a tank holding water to height H = 57.8 cm. (a) At what distance x does the stream strike the floor? (b) At what depth should a second hole be made to give the same value of x? (c) At what depth should a hole be made to maximize x?
Chapter 14 Problem 071 The figure shows a stream of water flowing through a hole at depth - 7.74 cm in a tank holding water to height second hoe be made to give the same value of (c) At what depth should a hole be made to maximize -35.7 cm. (a) At what distance x does the stream strike the floor? (b) At what depth should a Units (a) Number (b) Number (c) Number Units Units Question Attempts of used...
A large tank of water is filled up to a height H = 65 cm and is tapped a distance h = 48 cm below the water surface by a small hole as shown in the figure. Find the distance x reached by the water flowing out of the hole.
Water stands at a depth H = 19.5m in a large open tank whose side walls are vertical. A hole is made in one of the walls at a depth of h = 4.50m, below the top water surface. Part A: At what distance A from the foot at the wall does the emerging stream strike the floor? Part B: If you make a hole at a certain position, R becomes the maximum value. Find maximum value of R.
14. A jet of water squirts out horizontally from a hole near the bottom of the very large tank in the figure. If the height, h, of the water level in the tank is 0.3 m, find the angle that the stream makes with the vertical as it strikes the ground. (The horizontal distance frorm the bottom of the cylindrical stand to the splash point is unknown.) 14. A jet of water squirts out horizontally from a hole near the...
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...
Water flows steadily from a large tank as shown in the figure. The height of water in the tank is H = 4 m represents the height from the centerline of the horizontal pipe to the surface of the water in the tank. The water flows out of the tank through a pipe with diameter of 4 cm. The stream of water flows through a bend (= 30 degrees, L = 2.88 m) and exits as a free jet through...
A jet of water squirts out horizontally from a hole near the bottom of the tank, as seen in the figure below. Assume that y = 1.23 m and x = 0.546 m. What is the speed of the water coming out of the hole? The hole has a diameter of 3.64 mm. What is the height, h, of the water level in the tank?
The tank pictured in Figure 2 with height H and diameter D contains water, which drains through a small round hole with diameter d. Torricelli’s law states that the average velocity v of the draining water is , where g is the acceleration of gravity and h the water level. Derive an expression to describe the time taken for the tank to drain, if it is initially full of water. Future interplanetary astronauts could use the tank as a simple...
QUESTION 17 The figure below shows a tank of water on the right, restrained by a gate which is hinged at the bottom. There is a terrible risk that the gate will rotate open counter-clockwise and let all the water out to flood the village. Our hero keeps the gate upright by directing a mighty stream of water (a jet of circular cross-section and area, Aj) which impinges on the left side of the gate just at the level of...