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Using velocity reduction method, design the duct system. Take the velocity of air in main duct as 8m/sec, air density 1.2kg/m. Coranch = 0.4 Coutlet = 1 2. Using equal pressure drop method, design the duct system. Take Ap = 1pa/m, air density 1.2kg \m. Cranch = 0.4 Coutlet = 1

Using velocity reduction method, design the duct system. Take the velocity of air in main duct as 8m/sec, air density 1.2kg/m. Coranch = 0.4 Coutlet = 1 2. Using equal pressure drop method, design the duct system. Take Ap = 1pa/m, air density 1.2kg \m. Cranch = 0.4 Coutlet = 1

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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Using velocity reduction method, design the duct system. Take the velocity of air in main duct as 8m/sec, air density 1.2kg/m. Coranch = 0.4 Coutlet = 1 2. Using equal pressure drop method, design the duct system. Take Ap = 1pa/m, air density 1.2kg \m. Cranch = 0.4 Coutlet = 1

Using velocity reduction method, design the duct system. Take the velocity of air in main duct as 8m/sec, air density 1.2kg/m. Cbranch = 0.4 Coutlet = 2. Using equal pressure drop method, design the duct system. Take Ap 1pa/m, air density 1.2kg\m°. %3D Cbranch = 0.4 Coutlet = 1 1.5 m/s 1.5 m /s 1.5 m is 1.5 m /s A 7.5 m/s B 6 m ls C 4.5 m/s D 3 m /s E -10 m -10 m 10 m -10 m- A.C. system F
Transcribed Image Text:Using velocity reduction method, design the duct system. Take the velocity of air in main duct as 8m/sec, air density 1.2kg/m. Cbranch = 0.4 Coutlet = 2. Using equal pressure drop method, design the duct system. Take Ap 1pa/m, air density 1.2kg\m°. %3D Cbranch = 0.4 Coutlet = 1 1.5 m/s 1.5 m /s 1.5 m is 1.5 m /s A 7.5 m/s B 6 m ls C 4.5 m/s D 3 m /s E -10 m -10 m 10 m -10 m- A.C. system F
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