Water at 900 kPa, 25° Centers a 1-m-diameter horizontal pipe with a steady velocity of 16 m/s. At the exit the pressure drops to 810 kPa due to viscous resistance. Part A Assuming steady-state flow, determine the rate of heat transfer (Q) necessary to maintain a constant specific internal energy (u). Express your answer to four significant figures and include appropriate units. Q 0.090 Submit HÅ kJ kg www. ? Previous Answers Request Answer

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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I am having trouble with units on this problem I am pretty sure I have the right number but I am unsure about the units

Water at 900 kPa, 25°C enters a 1-m-diameter horizontal pipe with a steady velocity of 16 m/s. At the exit the pressure drops
to 810 kPa due to viscous resistance.
Part A
Assuming steady-state flow, determine the rate of heat transfer (0) necessary to maintain a constant specific internal energy (u).
Express your answer to four significant figures and include appropriate units.
μÅ
Q = 0.090
Submit
kJ
kg
www
Previous Answers Request Answer
?
X Incorrect; Try Again; 3 attempts remaining
Enter your answer with a different unit type. Review a list of acceptable units.
Transcribed Image Text:Water at 900 kPa, 25°C enters a 1-m-diameter horizontal pipe with a steady velocity of 16 m/s. At the exit the pressure drops to 810 kPa due to viscous resistance. Part A Assuming steady-state flow, determine the rate of heat transfer (0) necessary to maintain a constant specific internal energy (u). Express your answer to four significant figures and include appropriate units. μÅ Q = 0.090 Submit kJ kg www Previous Answers Request Answer ? X Incorrect; Try Again; 3 attempts remaining Enter your answer with a different unit type. Review a list of acceptable units.
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