Let W be the work (against gravity) required to build a pyramid with height 4m, a...

Find the work it would take to build a limestone pyramid with a square base with...

Find the work it would take to build a limestone pyramid with a square base with sides 560 ft and a height of 400 feet. (the density of limestone is 150 lb/ft3

A Pyramid is 655 ft high (due to erosion, its current height is slightly less) and...

A Pyramid is 655 ft high (due to erosion, its current height is slightly less) and has a square base of side 5895 ft. Find the work needed to build the pyramid if the density of the stone is estimated at 168 lb/ft3.

Find the center of mass of a square base pyramid where the side length of the...

Find the center of mass of a square base pyramid where the side length of the base is 20 m, the height is 9 m, and the pyramid has constant mass density δ kg/m3.

Set up integrals to compute the total volume in m^3 of and the total work in...

Set up integrals to compute the total volume in m^3 of and the total work in Joules to pump all of the water out of the following tanks. Assume that the density of the water is a uniform 1000 kg/m^3 and that the acceleration due to gravity is a constant 9.8 m/s^2. b.) An inverted, square-based pyramid (top side length 6 * sqrt(2) m, bottom side length 3 * sqrt(2) m, height 3 m), completely filled to the top with...

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...

An object (either solid sphere, hoop or solid disk) of Mass M=10kg and radius R=4m is...

An object (either solid sphere, hoop or solid disk) of Mass M=10kg and radius R=4m is at the bottom of an incline having inclination angle X=40 degrees and base length X=15 meters, with an initial rotational velocity omega(i)=2rad/s; it is subsequently pulled up the the incline by some force F=15 (Newtons) such that at the top of the incline it has a final rotational velocity omega(f)=7rad/s. Determine: a) the linear velocity, b) rotational KE and c) total work and work...

A trough is 9 meters long, 2 meters wide, and 3 meters deep. The vertical cross-section...

A trough is 9 meters long, 2 meters wide, and 3 meters deep. The vertical cross-section of the trough parallel to an end is shaped like an isoceles triangle (with height 3 meters, and base, on top, of length 2 meters). The trough is full of water (density 1000 kg m 3 1000 kg m 3 ). Find the amount of work in joules required to empty the trough by pumping the water over the top. (Note: Use g =...

1) If a person holds 50 kg object at a height of 2 m above the...

1) If a person holds 50 kg object at a height of 2 m above the floor for 10 s. How much work is done? W = F×d (2) The work done in lifting 30kg of bricks to a height of 20m is W = m ×g × d (Formula, W = F × d but Force = m × g) (3) A total of 4900 J is used to lift a 50-kg mass. The mass is raised to a...

A trough is 10 meters long, 3 meters wide, and 4 meters deep. The vertical cross-section...

A trough is 10 meters long, 3 meters wide, and 4 meters deep. The vertical cross-section of the trough parallel to an end is shaped like an isosceles triangle (with height 4 meters, and base, on top, of length 3 meters). The trough is full of water (density 1000kg/m^3). Find the amount of work in joules required to empty the trough by pumping the water over the top. (Note: Use g=9.8ms^2 as the acceleration due to gravity.)

Show how to approximate the required work by a Reimann sum. Then express the work as...

Show how to approximate the required work by a Reimann sum. Then express the work as an integral and evaluate it. An aquarium 3 m long, 2 m wide, and 4 m deep is full of water. Find the work needed to pump a fourth of the water out of the aquarium. (Use the fact that the density of water is 1000kg/m3)