A barrel, three-fourths-full of oil, is lying on its side. If each end is circular, 10 feet in diameter, find the total force exerted by the oil against one end of the barrel. Assume that the density of the oil is 50 pounds per cubic foot.

A barrel, three-fourths-full of oil, is lying on its side. If each end is circular, 10...
A tank containing oil is in the shape of a downward-pointing cone with its vertical axis perpendicular to ground level (See a picture of the tank ). Assume that the height of the tank is ℎ=8 feet, the circular top of the tank has radius r=4 feet, and that the oil inside the tank weighs 30 pounds per cubic foot. How much work,
Question 19 4 pts Find the fluid force on the vertical side of the tank, where the dimensions are given in feet. Assume that the tank is full of water. Note: The density of water is 62.4 lbs per cubic foot. -5 3 2340 lb 468 lb 62.4 lb 249.6 lb 1404 lb
Problem 4. A cylindrical tank laying on its side is buried under the ground so that the top of it is 15 feet below ground. The tank is 12 feet long and has a radius of 5 feet. The tank is filled with gasoline which has a density of 42 pounds per cubic foot. Write a Riemann sum to approximate the work required to empty the tank. Then pass to a limit and find the work that would be required.
question #1 pls
assume stick is vertically inserted Consider a horizontally-positioned right circular cylindrical oil tank of radius r and length h as in the figure. The tanks are used for storage in various locations and are drained and filled periodically. Inventory is taken by placing a long dipstick with quarter-inch marks vertically in the tank, and then measuring the liquid level w. 1 1). If all variables r, h, and w are in inches, use calculus to find a...
just choose the answer no need for explain
10 Find M, M, and (T.7) for the laminas of uniform density p the equations bounded by the graphs of 416 832416 832416 1835008 -=- 19 1835008 10. B) C) 17 19-p. M, = 1835008 19 -p.4-1835008 A4,-917504 E) "У 21 832 M. = 229376 -=- 19 Find the fluid force on the vertical side of the tank, where the dimensions are gi feet. Assume that the tank is full of water....
0 A spherical tank of radius 8 feet is half full of oil that weighs 50 pounds per cubic foot. Find the work required to pump oil out through a hole in the top of the tank. ② For the differential equation xy-3y=0 verify that y= Cx² is a solution, and find the particular solution determined by the initial condition y=2 when X=-3. find @ Given the initial condition y(0)=1, particular solution of the equation xy dx + e* (y²-1)...
indow Help a Active Calculus 2.0.pdf (page 393 of 553) 6. Consider the curve f(x) 3 cos() and the portion of its graph that lies in the fi quadrant between the y-axis and the first positive value of x for which f(x) 0. Let R denote the region bounded by this portion of f, the x-axis, and the y-axis. Assume that r and y are each measured in feet. a. Picture the coordinate axes rotated 90 degrees clockwise so that...
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(1 point) 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 meter, its length is 8 meters, and its top is 5 meters under the ground, find the total amount of work needed to pump the gasoline out of...
Problem #13: [3 marks] A long circular pipe, radius 8 meters is laying on its side and is closed with a sheet of glass at both ends. If it is filled with water to the depth of 8 meters, what is the total hydrostatic force on one glass end? (Note: The density of water is 1000 kg/m3, and use g=10m/s2.) This End
Problem #13: [3 marks] A long circular pipe, radius 8 meters is laying on its side and is closed with a sheet of glass at both ends. If it is filled with water to the depth of 8 meters, what is the total hydrostatic force on one glass end? (Note: The density of water is 1000 kg/m3, and use g=10m/s2.) This End