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Q1/ Air at 10 C flows through a 40-cm pipe at a velocity of 5m/s. (a) Determine the mass flow rate, M ; the weight flow rate, G; and the volume flow rate, Q. Q2/ Water flows at volume flow rate, Q of 50 ft'/s (cfs) through a pipe as illustrated in Figure. A conical diffuser is used to decelerate the fluid flow in order to achieve pressure recovery in the flow. The velocity of flow in the smaller pipe diameter is 30 ft/sec, and the velocity of flow in the larger pipe diameter is 10 ft/sec. (a) Determine the pipe diameter of the smaller pipe. (b) Determine the pipe diameter of the larger pipe. Q-50 cs 30 fs 10 fps Q3/ Water flows in a rectangular open channel of width 5 ft at a volume flow rate (discharge) of 100 ft3/s (cfs) and a depth of 2 ft. Determine the velocity of flow in channel. Q4/ Water from a faucet with a 1 in diameter fills a 30 ft3 tank in 2 minutes, as illustrated in Figure (a) Determine the mass flow rate, M, the weight flow rate, G and the volume flow rate, Q through the faucet. (b) Determine the velocity of flow through the faucet. M = ? G = ? Q = ? "iancet = ? t = 2 min 1 in 30 ft Q5/ Water flows through a 0.8-m pipe that branches into a 0.6-m pipe and a 0.5-m pipe, as illustrated in Figure. The velocity of flow at control face 1 is 3m/sec, and the velocity of flow at control face 2 is 2.5m/sec. (a) Determine the volume flow rate at control face 1. (b) Determine the volume flowrate at control face 2. (c) Determine the volume flow rate at control face 3.