Step by step solution please thank youuu. Finding mass flow rate, volumetric flow rate and velocity. As shown in the figure, air with a volumetric flow rate of 17,000 ft°/min enters an air-handling unit at 80°F, 1 atm. The air-handlingunit delivers air at 45°F, 1 atm to a duct system with three branches consisting of two 26-in.-diameter ducts and one 50-in. duct. Thevelocity in each 26-in. duct is 13 ft/s. Assume steady state operation and ideal gas behavior for the air.4+D - 50 in.DuctTz = T3 = T, = 45°FD; = D, = 26 in.V2 = V3systemAir-handling unit1+ P = P2 = P3 = P4 = 1 atmT = B0°F(AV),Determine the mass flow rate of air entering the air-handling unit, in Ib/s, the volumetric flow rate in each 26-in. duct, in ft/min, andthe velocity in the 50-in. duct, in ft/s.

Answered: Image /qna-images/answer/e4fb7df5-df17-415b-aed1-91464392ec50.jpg

Answered: As shown in the figure, air with a…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

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Provide a clear and complete solution as well as a diagram for this problem. A steam turbine has an inlet steam enthalpy of 3000 KJ/kg and exit enthalpy of 2800 KJ/kg. Ifinlet velocity is 200 m/s, find the exit velocity of steam. A. 543.12 m/s B. 983.55 m/s C. 634.56 m/s D. 663.32 m/s Answer: D
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Finding mas flow rate, in lb/s, and exit temperature in F. Step by step solution please thank youuu

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