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Chapter 5, Problem 052Water flows from a large tank into a dish as shown in Fig. P5.52. (a) If at the instant shown the tank and the water in it weigh W1 lb, what is the tension, T1, in the cable supporting the tank? (b) If at the instant shown the dish and the water in it weigh W2 lb, what is the force, F2, needed to support the dish?Fig. P5.52
For the gate shown in fig determine a) the horizontal force and its location b) the vertical force and its location c) the horizontal force F necessary to keep the gate closed knowing that it weighs 500 N and its center of gravity G is 20 cm to the left of the hinge. The gate measures 1.2 m width, with radius R = 40 cm, S = 6 for the manometric fluid.
Calculate the viscosity of a fluid that would allow a pressure drop of 35kpa over a 5m length of 0.75_in stainless steel sanitary pipe, if the fluid is flowing at 0.12m^3/h and has a density of 1010 kg/m^3. Assume laminar flow
Apple juice at 20c is siphoned from using a constant diameter hose the end of the siphon is 1m below the bottom of the tank. Calculate the height of the hill over which the hose maybe siphoned without cavitation. Assume properties of the apple juice as properties of water.the atmospheric pressure is 101.3 kpa and the height of the apple juice in the tank is 2 m
A solution of ethanol is pumped to a vessel 25 m abovea reference level through a 25-mm-inside-diameter steelpipe at a rate of 10 m3/h. The length of pipe is 30 m andcontains two elbows with friction equivalent to 20 diameterseach. Compute the power requirements of the pump.Solution properties include density of 975 kg/m3 andviscosity of 4 3 1024 Pa s.