A tank in the shape of an inverted right circular cone has height 88 meters and...

A tank in the shape of an inverted right circular cone has height 9 meters and...

A tank in the shape of an inverted right circular cone has height 9 meters and radius 13 meters. It is filled with 3 meters of hot chocolate. Find the work required to empty the tank by pumping the hot chocolate over the top of the tank. Note: the density of hot chocolate is δ=1480kg/m^3

A tank in the shape of an inverted right circular cone has height 7 meters and...

A tank in the shape of an inverted right circular cone has height 7 meters and radius 3 meters. It is filled with 6 meters of hot chocolate. Find the work required to empty the tank by pumping the hot chocolate over the top of the tank. The density of hot chocolate is δ=1080 kg/m^3. Your answer must include the correct units. NOTE: 112174.092J is incorrect?

A tank in the shape of an inverted right circular cone has height 7 meters and...

A tank in the shape of an inverted right circular cone has height 7 meters and radius 3 meters. It is filled with 6 meters of hot chocolate. Find the work required to empty the tank by pumping the hot chocolate over the top of the tank. The density of hot chocolate is δ=1080 kg/m^3. Your answer must include the correct units.

A tank in the shape of an inverted right circular cone has height 6 meters and...

A tank in the shape of an inverted right circular cone has height 6 meters and radius 2 meters. It is filled with 5 meters of hot chocolate. Find the work required to empty the tank by pumping the hot chocolate over the top of the tank. The density of hot chocolate is \delta = 1090kg/m^3 Your answer must include the correct units.

A tank in shape of an inverted right circular cone has height 10 m and radius...

A tank in shape of an inverted right circular cone has height 10 m and radius 10 m. it is filled with 7 m of hot chocolate. Find the work required to empty the tank by bumping the hot chocolate over the top. density of chocolate equal 1510kg/m^3

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 right circular cylinder, with a height of 15m and...

A tank in the shape of a right circular cylinder, with a height of 15m and a radius of 8m, is full of gasoline. How much work is required to pump all the gasoline over the top of the tank (density of gasoline: ρ = 720kg/m3 and acceleration due to gravity g = 9.8m/s2 ).

(Integration Application) A water tank is shaped like an inverted cone with a height 2 meters...

(Integration Application) A water tank is shaped like an inverted cone with a height 2 meters and top radius 6 meters is full of water. Set up a Riemann Sum and an Integral to model the work that is required to pump the water to the level of the top of the tank? No need to integrate here. (Note that density of water is 1000 kg/m3 ). RIEMANN SUM ______________________________________________ INTEGRAL____________________________________________________ Provide an explanation as to the difference of the...

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...

1 C. A reservoir in the shape of a straight circular cone is filled with water....

1 C. A reservoir in the shape of a straight circular cone is filled with water. If the tank height is 10 feet and the radius at the top is 6 feet, find the job done by pumping the water to the top edge of the tank. Find the work done by bobbing the water to a height of 10 feet above the top edge of the reservoir. Remember that the volume is equal to radio2x height. The density of...