Air at p = 1 atm enters a thin-walled (D = 5-mm diameter) long tube (L = 2 m) at an inlet temperature of Tm₂ 100°C. A constant heat flux is applied to the air from the tube surface. The air mass flow rate is m = 105 x 10" the tube surface temperature at the exit is Ts,o= 160°C, determine the heat rate entering the tube, in W. Evalua properties at T = 400 K. q= W
Air at p = 1 atm enters a thin-walled (D = 5-mm diameter) long tube (L = 2 m) at an inlet temperature of Tm₂ 100°C. A constant heat flux is applied to the air from the tube surface. The air mass flow rate is m = 105 x 10" the tube surface temperature at the exit is Ts,o= 160°C, determine the heat rate entering the tube, in W. Evalua properties at T = 400 K. q= W
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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![Air at p = 1 atm enters a thin-walled (D = 5-mm diameter) long tube (L = 2 m) at an inlet temperature of I'm i=
100°C. A constant heat flux is applied to the air from the tube surface. The air mass flow rate is m = 105 × 10⁰ kg/s. If
the tube surface temperature at the exit is Ts,o= 160°C, determine the heat rate entering the tube, in W. Evaluate
properties at T = 400 K.
q=
W](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fffe38df4-8eb0-47bd-be7c-36957ca69cb1%2Fc33f62bb-8e11-444d-9839-7de140fad708%2Fk583p27_processed.png&w=3840&q=75)
Transcribed Image Text:Air at p = 1 atm enters a thin-walled (D = 5-mm diameter) long tube (L = 2 m) at an inlet temperature of I'm i=
100°C. A constant heat flux is applied to the air from the tube surface. The air mass flow rate is m = 105 × 10⁰ kg/s. If
the tube surface temperature at the exit is Ts,o= 160°C, determine the heat rate entering the tube, in W. Evaluate
properties at T = 400 K.
q=
W
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