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

A triangular tank with height 3 meters, width 4 meters and length 8 meters is full...

A triangular tank with height 3 meters, width 4 meters and length 8 meters is full of water. How much work is required to pump the water out through a spout 2.5 meter above the top of the tank? (The density of water is approximately 1000 kg m3 .)

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...

You have a spherical water tank that is exactly half-full. In order to empty the tank,...

You have a spherical water tank that is exactly half-full. In order to empty the tank, the water must be sent through a spout at the top that extends 2 meters above the top of the tank. The radius of the tank is 9 meters. How much work is required to empty the tank? Include every step and write your solution out very clearly.

Calculate the work (in joules) required to pump all of the water out of a full...

Calculate the work (in joules) required to pump all of the water out of a full tank. The density of water is 1000 kilograms per cubic meter. Assume the tank (a) is shaped like an inverted cone of radius 5 meters and height 10 meters where the spout is connected to a 2 meter tube extending vertically above the tank. (b) is shaped like a horizontal cylinder of radius R and height H where the spout is connected directly to...

Calculate the work (in joules) required to pump all of the water out of a full...

Calculate the work (in joules) required to pump all of the water out of a full tank. The density of water is 1000 kilograms per cubic meter. Assume the tank (b) is shaped like a horizontal cylinder of radius R and height H where the spout is connected directly to the top of the tank.

. A conical tank of with radius 5 m and height 10 m is filled with...

. A conical tank of with radius 5 m and height 10 m is filled with water. Calculate the work against gravity required to pump water (with density 1000 kg/m3 ) through a spout of 1 meter in height located at the top of the tank.

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 gas station stores its gasoline in a tank under the ground. The tank is a...

A gas station stores its gasoline in a tank under the ground. The tank is a cylinder lying horizontally on its side. (In other words, the tank is not standing vertically on one of its flat ends.) If the radius of the cylinder is 1.5 meters, its length is 3 meters, and its top is 3 meters under the ground, find the total amount of work needed to pump the gasoline out of the tank. (The density of gasoline is...

A water tank has the shape of an inverted cone with a height of 6 meters...

A water tank has the shape of an inverted cone with a height of 6 meters and a radius of 4 meters. The tank is not completely full; at its deepest point, the water is 5 meters deep. How much work is required to pump out the water? Assume the water is pumped out to the level of the top of the tank.

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

A tank in the shape of a sphere with radius 4 ft. is half full of a liquid weighing 82 lbs./ft3. Find the work done in pumping the liquid up, then to, then out of a spigot 2 ft. in length located at the very top of the tank.