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Standard atmospheric air [To = 288 K, po = 101 kPa (abs)] is drawn steadily through an isentropic converging nozzle into a frictionless diabatic (q=289 kJ/kg) constant area duct. For maximum flow, determine the values of (a) static temperature at the exit of the duct, (b) static pressure at the exit of the duct, (c) static temperature at the inlet of the duct, (d) static pressure at the inlet of the duct, (e) flow velocity at the inlet of the duct and (f) flow velocity at the exit of the duct. (a) T = i (b) p= (c) T = (d) p= (e) V = (f) V= i i K kPa (abs) K kPa (abs) m/s i m/s

Standard atmospheric air [To = 288 K, po = 101 kPa (abs)] is drawn steadily through an isentropic converging nozzle into a frictionless diabatic (q=289 kJ/kg) constant area duct. For maximum flow, determine the values of (a) static temperature at the exit of the duct, (b) static pressure at the exit of the duct, (c) static temperature at the inlet of the duct, (d) static pressure at the inlet of the duct, (e) flow velocity at the inlet of the duct and (f) flow velocity at the exit of the duct. (a) T = i (b) p= (c) T = (d) p= (e) V = (f) V= i i K kPa (abs) K kPa (abs) m/s i m/s

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
Problem 1.1MA
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Parvinbhai 

Standard atmospheric air [To = 288 K, po = 101 kPa (abs)] is drawn steadily through an isentropic converging nozzle into a frictionless diabatic (q=289 kJ/kg) constant area duct. For maximum flow, determine the values of (a) static temperature at the exit of the duct, (b) static pressure at the exit of the duct, (c) static temperature at the inlet of the duct, (d) static pressure at the inlet of the duct, (e) flow velocity at the inlet of the duct and (f) flow velocity at the exit of the duct. (a) T = i (b) p= (c) T = (d) p= (e) V = (f) V= i i K kPa (abs) K kPa (abs) m/s i m/s
Transcribed Image Text:Standard atmospheric air [To = 288 K, po = 101 kPa (abs)] is drawn steadily through an isentropic converging nozzle into a frictionless diabatic (q=289 kJ/kg) constant area duct. For maximum flow, determine the values of (a) static temperature at the exit of the duct, (b) static pressure at the exit of the duct, (c) static temperature at the inlet of the duct, (d) static pressure at the inlet of the duct, (e) flow velocity at the inlet of the duct and (f) flow velocity at the exit of the duct. (a) T = i (b) p= (c) T = (d) p= (e) V = (f) V= i i K kPa (abs) K kPa (abs) m/s i m/s
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