Please answer and show all work LEGENDS AND ABBREVIATION SHOWN ON TOP OF THE WATER TANK...
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The tank shown is full of water. Given that water weighs 62.5 Ib/ft and R = 5, find the work (in lb-ft) required to pump the water out of the tank. Rft hemisphere Show all steps clearly. Set up an integral. Do not evaluate.
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Question 22 0/20p A sealed tank shown below, has a pocket of trapped air above the water with a pressure P: (ps. The alr pocket ishin height (50 feet) as shown where as the water level is h in height(40 feet). A pressure gage at the bottom of the tank reads p2(60 psi) and the stand pipe for the entire tank reads hy(feet) Please take your decimals out to two places. (Do not write the units...
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A tank contains 70 kg of salt and 1000 L of water. Pure water enters a tank at the rate 10 L/min. The solution is mixed and drains from the tank at the rate 5 L/min (a) What is the amount of salt in the tank initially? Preview (kg) amount-70 Find the amount of salt in the tank after 1.5 hours. * Preview (kg) amount - 69.47696384 (c) Find the concentration...
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5, A certain tank has a circular bottom area A 25 m2. It is drained by a pipe whose linear resistance is R = The tank contains water whose mass density is 1000 kg/m 120 m.s a) How long will it take for the tank to empty if the water height was initially 16 m? b) Suppose we dump water into the tank at a rate of 0.1 m3/s. If the tank is initially...
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The pressure tank shown below can be considered to be a thin walled cylindrical tank with spherical end caps. It has a diameter of 5.000 feet, with a cylindrical wall thickness of 0.5000 inches and has spherical end caps. Find the thickness of the spherical end caps, so that they have the same maximum stress in the metal as the maximum stress in the cylindrical wall. The same type of metal will be the...
ENVIRONMENTAL ENGINEERING, please show all work and clearly circle
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A settling tank is being designed to remove suspended particles through Type 1 settling. The density of the particle is 1045 kg/m23 and the density of the water is 1020 kg/m2. The diameter of the particles is 0.2 mm and the temperature is 25* C. Assuming laminar conditions, find the settling velocity, vi, for the particles. If the overflow rate is 65 m2/d m2, what is the percentage of...
Name: Assignment 4 Please show all of your work and not only the answer 1. [5 points in the Cash Now lottery game there are 10 finalist who submitted entry tickets, three grand prize winners will be drawn. The first prize is $1 million, the second prize of $100,000, and the third prize is $10,000. Determine the total number of different ways in which the winners can be drawn. Assume that the tickets are not replaces after they are drawn)...
Name: Assignment 4 Please show all of your work and not only the answer 1. [5 points in the Cash Now lottery game there are 10 finalist who submitted entry tickets, three grand prize winners will be drawn. The first prize is $1 million, the second prize of $100,000, and the third prize is $10,000. Determine the total number of different ways in which the winners can be drawn. Assume that the tickets are not replaces after they are drawn)...
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1. You must SHOW ALL YOUR WORK on the test to receive full credit. 2. Print your name and Id# on the top of the first page. 3. Always give the exact answer(s) in the simplest form unless it's specified otherwise. 4. Box your final answers. GOOD LUCK! 1) (11 points) Find all critical numbers of f(x)=x-Vx. (Show all five steps.)
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1. In a stirred tank fermentation, sparingly soluble gas (usually oxygen) is sparged into a liquid; if there is initially no gas present in the stirred liquid, the time-dependent concentration of the dissolved gas (Cgas) can be fit to the following equation: gas -Cgas (1-ekt) where ku is a mass transfer coefficient, t is time, and C as is the equilibrium concentration of dissolved gas. Below are three different experimental runs where the dissolved...