A tank in the shape of a sphere with radius 4 ft. is half full of...

A tank has the shape of a hemisphere (bottom half of the sphere) with radius 6m....

A tank has the shape of a hemisphere (bottom half of the sphere) with radius 6m. It is filled with water to a height of 4m. The spout is located 1m above the tank. Find the work required to pump the water out of the spout.

an inverted right circular gasoline tank of radius 2 ft and height 8ft is buried in...

an inverted right circular gasoline tank of radius 2 ft and height 8ft is buried in the ground so that the circular top is 1 f below the ground (parallel to the ground). Howw much work (in ft-lbs) is required to pump the gasoline occupying the top foot of the tank to aheight 2ft above the ground if the tank id full. (ignore the water the ends in the hose from the pumping process aftertop foot is done being pumped...

A cylindrical tank is sitting horizontally. The tank has radius 5 ft and has length 8...

A cylindrical tank is sitting horizontally. The tank has radius 5 ft and has length 8 ft. If the tank is half-filled with water, how much work is required to pump out all the water from the tank? The density of water is 62.4 lb/ft3 . Note: The gravitation constant g should NOT appear in your calculation. The last part is very important, I am not sure how to do this problem in the way it is asking. Please leave...

A spherical tank with radius 2m is half full. Set up, but DO NOT evaluate, an...

A spherical tank with radius 2m is half full. Set up, but DO NOT evaluate, an integral that determines the work required to pump the water out of the tank through a valve 1m above the top of the tank.

A conical container of radius 6 ft and height 24 ft is filled to a height...

A conical container of radius 6 ft and height 24 ft is filled to a height of 22 ft with a liquid weighing 62.4 lb/ft3. How much work will it take to pump the liquid to a level of 2 ft above the​ cone's rim?

A hemispherical tank of water (radius 10 ft) is being pumped out. Find the work done...

A hemispherical tank of water (radius 10 ft) is being pumped out. Find the work done in lowering the water level from 2 feet below the top of the tank to 4 feet below the tank given that the pump is placed a) at the top of the tank and b) the pump is placed 3 feet above the top of the tank. Clearly indicate how force and distance are represented and indicate where the 0 position is on the...

A spherical tank of radius 10 meters is completely full of liquefied petroleum gas. All the...

A spherical tank of radius 10 meters is completely full of liquefied petroleum gas. All the petroleum must be used emptied out of the tank and converted to alkylate. Compute the work needed to push all the petroleum out of the tank and out a 4 meter spout out of the top of the sphere. Liquefied petroleum gas has density 495 kg/m^3

A conical container having a top radius of 6 meters and a height of 9 meters...

A conical container having a top radius of 6 meters and a height of 9 meters is filled with a liquid weighing 30 N/m3. Find the work done in pumping all the liquid to a point 3 meters above the top of the liquid.

Consider a hemispherical tank with a radius of 3 meters that is resting upright on its...

Consider a hemispherical tank with a radius of 3 meters that is resting upright on its curved side. Using 9.8 m/s^2 for the acceleration due to gravity and 1,000 kg/m^3 as the density of water, Set up the integral for the work required to pump the water out of the tank if: (a) the tank is full of water and it is being pumped out of a 1-meter long vertical spout at the top of the tank. (b) the tank...

A tank is full of water. Find the work required to pump the water out of...

A tank is full of water. Find the work required to pump the water out of the spout. Use the fact that water weighs 62.5 lb/ft3. (Assume a = 6 ft, b = 9 ft, and c = 10 ft.)