2. Vessel A at a Height of 2.44 m, filled with water under pressure of 1.03...

A 4 m-wide tank with height of 1.8 m filled with water is pulled with a...

A 4 m-wide tank with height of 1.8 m filled with water is pulled with a cable inclined at 30o to the horizontal. The constant acceleration value in the cable direction is 4 m/s². The water depth is measured as 1.5 m before the motion starts.  Determine the angle between the water surface and the horizontal.  Compute the maximum and minimum pressure values on the bottom of the tank.  How many volume of water are spilled?

A 4 m-wide tank with height of 1.8 m filled with water is pulled with a...

A 4 m-wide tank with height of 1.8 m filled with water is pulled with a cable inclined at 30o to the horizontal. The constant acceleration value in the cable direction is 4 m/s². The water depth is measured as 1.5 m before the motion starts.  Determine the angle between the water surface and the horizontal.  Compute the maximum and minimum pressure values on the bottom of the tank.  How many volume of water are spilled?

A tank is filled with 8m water (density water = 1000 kg/m^3) and 2 m oil...

A tank is filled with 8m water (density water = 1000 kg/m^3) and 2 m oil (density oil = 900 kg/ m^3).Flow is discharged at the bottom from a circular exit section with 5 mm diamter. Ignoring all frictional effects, determine the a) Velocity in exit section if the top tank pressure is atmospheric b) Flow rate in exit section if the top tank pressure is -25 kPa vacuum.

27.) A tank with upright sides contains 0.9 m of mercury and 5 m of water....

27.) A tank with upright sides contains 0.9 m of mercury and 5 m of water. Find the total force on the square from one side, whose area is 0.6 x 0.6, half of this area is below the surface of mercury. The sides of the square are vertical and horizontal. 23.) Oil with a relative density of 0.800 presses the surface of the upright triangle, the peak of which is on the surface of the oil. The triangle is...

A triangular plate with base 6 m and height 2 m is submerged vertically in water...

A triangular plate with base 6 m and height 2 m is submerged vertically in water such that the highest vertex of the plate is 4 meters below the surface and the base is horizontal to the surface. 4 m ( from water surface to top of triangle ) 6 m ( triangle width ) 2 m (triangle height ) Express the hydrostatic force against one side of the plate as an integral and evaluate it. (Round your answer to...

(a) (2 marks) A 2000-kg car is lifted to a height h by a hydraulic lift...

(a) A 2000-kg car is lifted to a height h by a hydraulic lift containing an incompressible fluid. A force of F1 applied on a piston of area A1 results in a larger force of F2 on the plunger of larger area A2 . Suppose the piston has a radius of 0.0120 m and the plunger’s radius is 0.750 m. Calculate the height to which the car is lifted if the work done by the plunger is 200 J. (Assume...

1. The three tanks shown above are filled with water to an equal depth. All the...

1. The three tanks shown above are filled with water to an equal depth. All the tanks have an equal height. Tank A has the least surface area at the bottom, tank B has the greatest and tank C has the middle area at the bottom. (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 total force exerted by the water on the bottom...

A valve shaped like a triangle of base 3 meters and height 2 meters is submerged...

A valve shaped like a triangle of base 3 meters and height 2 meters is submerged vertically 3 meters below the surface of the water in a tank. a. Assuming that the tank is full, use the techniques learned in Chapter 2.5 to set up a definite integral of the total fluid force ? on a side of the valve. b. Calculate the fluid force ? (in Newtons). Use 1000 kg/?3 as the mass density of water and ? =...

A) A 1500-kg car is lifted to a height h by a hydraulic lift containing an...

A) A 1500-kg car is lifted to a height h by a hydraulic lift containing an incompressible fluid. A force of F_1 applied on a piston of area A_1 results in a larger force of F_2 on the plunger of larger area A_2. Suppose the piston has a radius of 0.0120 m and the plunger’s radius is 0.150 m. Calculate the height to which the car is lifted if the work done by the plunger is 200 J. (Assume that...