= 4.339.74m/ sećn/ 4(0.2)2HOMEWORKQ1l A (30 N/s) flow throw the reducer of the proceeding problem ,the air in the(300mm) pipe having weight density of (9.8 N/m' ) in the flowing through thereducer producing a redaction of density .assuming that the weight density of theair in the (200 mm) pipe is (7.85 N/ m'). Calèulate the mass and volume flowrate.Q2/ (2) Water enters a conical diffusing passage (see Figure below). With a flowrate of 10ft'/s, and if the entrance cross-section area is 2 ft, what's the averagevelocity at the entrance to the diffuser? What must the diffuser exit area be toreduce the velocity to 0.5 ft/s?4 = 2 fQ = 10 cfs- m = AQ:oiclooleo or boon ow.matve binlto sinsb omit letot odi stumhn th .C

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Qil A (30 N/s) flow throw the reducer of the proceeding problem ,the air in the (300mm) pipe having weight density of (9.8 N/m') in the flowing through the reducer producing a redaction of density .assuming that the weight density of the air in the (200 mm) pipe is (7.85 N/ m'). Calculate the mass and volume flow rate.

Qil A (30 N/s) flow throw the reducer of the proceeding problem ,the air in the (300mm) pipe having weight density of (9.8 N/m') in the flowing through the reducer producing a redaction of density .assuming that the weight density of the air in the (200 mm) pipe is (7.85 N/ m'). Calculate the mass and volume flow rate.

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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