The L-shaped tank shown is completely full of water and open at the top. The dimension "d" = 5.8 m. What is the total force exerted by the water on face A of the tank? Your answer should be in N, but enter only the numerical part in the box. Note that for large numbers you can enter z.zey to represent z.z x 10y.
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The L-shaped tank shown is completely full of water and open at
the top. The dimension...
Chapter Om The L-shaped tank shown in the figure is filled with water and is open...
Chapter Om The L-shaped tank shown in the figure is filled with water and is open at the top. If d = 3.49 m, what is the total force exerted by the water (a) on face A and (b) on face B? (a) Number Units (b) Number Units
Consider a tank of water shaped like a rectangular prism with triangular sides, as shown in...
Consider a tank of water shaped like a rectangular prism with triangular sides, as shown in the following diagram: Assume that the tank is completely full. How much work is done to pump the water out of the tank from the top? Enter your solution in Joules. (For simplicity, assume that the acceleration due to gravity is g = 10 m/s2, and that the density of water is D = 1000 kg/m.) Select one: 800000 2. 3 b. 300000 c.800000...
4. A rectangular tank water (width 14.0m, length 14.0m, and height 20 m) is filled with...
4. A rectangular tank water (width 14.0m, length 14.0m, and height 20 m) is filled with water and open to the atmosphere. The water level in the tank is 1 m below the top of the tank. This tank sits upon a platform of height h. If the water tank is plugged at the bottom so no water is flowing, what is the resultant force exerted by the water on the bottom face of the container? What is the resultant...
(a) A large, open at the top, upright cylindrical tank contains a brine with a density...
(a) A large, open at the top, upright cylindrical tank contains a brine with a density of 1.23 x 103 kg/m. If the air pressure is 101.3 kPa, determine the absolute pressure (in Pa) in the fluid at a depth of 27.0 m. 1269.16 The absolute pressure at any point in the fluid is the sum of atmospheric pressure and the pressure due to the depth of the fluid. How can you account for the pressure due to the depth...
4. [1pt] A. B. C. The three tanks shown above are filled with water to an...
4. [1pt]
A.
B.
C.
The three tanks shown above are filled with water to an equal
depth. All the tanks have an equal height. Tank A has the greatest
surface area at the bottom, tank B the middle and tank C the
least.
(Select T-True, F-False, G-Greater than, L-Less than, E-Equal to.
If the first is F the second L and the rest G, enter
FLGGGG).
A) The force exerted by the water on the bottom of tank C...
A hinged water storage is shown below. Its top side is denoted as C, the narrow...
A hinged water storage is shown below. Its top side is denoted as C, the narrow side as B and the long side as A. Assume water density is 1000 kg/m3 and gravity is 9.81 m/s2 Side A is hinged at the bottom edge and secured using a clasp at its top edge centre position. Dimensions are: L = 0.8m, H = 0.6m & W = 0.4m When the tank is full of water: a) Calculate the size and location...
A hinged water storage is shown below. Its top side is denoted as C, the narrow...
A hinged water storage is shown below. Its top side is denoted as C, the narrow side as B and the long side as A Liew. Side C Clasp Side B Side A Hinges View Assume water density is 1000 kg/m3 and gravity is 9.81 m/s2 Side A is hinged at the bottom edge and secured using a clasp at its top edge centre position. Dimensions are: L = 0.8m, H = 0.6m & W=0.4m When the tank is full...
3) As shown in the figure below, water (o 1.94 slugs/ ft') is pumped from a large tank (1) at a r...
3) As shown in the figure below, water (o 1.94 slugs/ ft') is pumped from a large tank (1) at a rate of 3 ft'/s through a main supply line to the top of an aeration column (2), which is a large free surface open to the atmosphere. The head loss through the supply line is 4 ft. In the acration column, the water is entrained with air as it moves downward via gravity through the column and exits to...
22. Find parametric equations of the line tangent to the sur- face z at the point (3, 2, 72) whose projection on...
22. Find parametric equations of the line tangent to the sur- face z at the point (3, 2, 72) whose projection on the xy-plane is (a) parallel to the x-axis; (e) parallel to the line x y (b) parallel to the y-axis; 1. The system in Fig,1 is in equilibrium, with the string in the center exactly horizontal. Block A weighs 40 N, block B weighs 50 N, and angle is 35°. Find (a) tension Ti. (b) tension T2. (c)...
A triangular aquarium window with dimensions as shown contains fresh water all the way to the...
A triangular aquarium window with dimensions as shown contains fresh water all the way to the top.Find the force on the window from the water pressure.(Carefully show all steps including setting up the integral)Hint: To check your answer, find the force on the lower triangular part of a 2.0 m x 3.0 m rectangular window, add to the upper triangle force and compare to the book equation for the force on a rectangular area. Paper Homework Format: Please use the...
Chapter Om The L-shaped tank shown in the figure is filled with water and is open at the top. If d = 3.49 m, what is the total force exerted by the water (a) on face A and (b) on face B? (a) Number Units (b) Number Units
Consider a tank of water shaped like a rectangular prism with triangular sides, as shown in the following diagram: Assume that the tank is completely full. How much work is done to pump the water out of the tank from the top? Enter your solution in Joules. (For simplicity, assume that the acceleration due to gravity is g = 10 m/s2, and that the density of water is D = 1000 kg/m.) Select one: 800000 2. 3 b. 300000 c.800000...
(a) A large, open at the top, upright cylindrical tank contains a brine with a density of 1.23 x 103 kg/m. If the air pressure is 101.3 kPa, determine the absolute pressure (in Pa) in the fluid at a depth of 27.0 m. 1269.16 The absolute pressure at any point in the fluid is the sum of atmospheric pressure and the pressure due to the depth of the fluid. How can you account for the pressure due to the depth...
4. [1pt]
A.
B.
C.
The three tanks shown above are filled with water to an equal
depth. All the tanks have an equal height. Tank A has the greatest
surface area at the bottom, tank B the middle and tank C the
least.
(Select T-True, F-False, G-Greater than, L-Less than, E-Equal to.
If the first is F the second L and the rest G, enter
FLGGGG).
A) The force exerted by the water on the bottom of tank C...
A hinged water storage is shown below. Its top side is denoted as C, the narrow side as B and the long side as A Liew. Side C Clasp Side B Side A Hinges View Assume water density is 1000 kg/m3 and gravity is 9.81 m/s2 Side A is hinged at the bottom edge and secured using a clasp at its top edge centre position. Dimensions are: L = 0.8m, H = 0.6m & W=0.4m When the tank is full...
3) As shown in the figure below, water (o 1.94 slugs/ ft') is pumped from a large tank (1) at a rate of 3 ft'/s through a main supply line to the top of an aeration column (2), which is a large free surface open to the atmosphere. The head loss through the supply line is 4 ft. In the acration column, the water is entrained with air as it moves downward via gravity through the column and exits to...
22. Find parametric equations of the line tangent to the sur- face z at the point (3, 2, 72) whose projection on the xy-plane is (a) parallel to the x-axis; (e) parallel to the line x y (b) parallel to the y-axis; 1. The system in Fig,1 is in equilibrium, with the string in the center exactly horizontal. Block A weighs 40 N, block B weighs 50 N, and angle is 35°. Find (a) tension Ti. (b) tension T2. (c)...
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