A quantity of a certain perfect gas is compressed from an initial state of 0.083 m3, 1 bar to a final state of 0.034 m3, 3.8 bar. The specific heat at constant volume is 0.722 kJ/kg K, and the specific heat at constant pressure is 1.03 kJ/kg K. The observed temperature rise is 134 K. Calculate the mass of gas present to two decimal places with the SI unit.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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A quantity of a certain perfect gas is
compressed from an initial state of
0.083 m3, 1 bar to a final state of 0.034
m3, 3.8 bar. The specific heat at
constant volume is 0.722 kJ/kg K, and
the specific heat at constant pressure
is 1.03 kJ/kg K. The observed
temperature rise is 134 K. Calculate
the mass of gas present to two
decimal places with the SI unit.
Transcribed Image Text:A quantity of a certain perfect gas is compressed from an initial state of 0.083 m3, 1 bar to a final state of 0.034 m3, 3.8 bar. The specific heat at constant volume is 0.722 kJ/kg K, and the specific heat at constant pressure is 1.03 kJ/kg K. The observed temperature rise is 134 K. Calculate the mass of gas present to two decimal places with the SI unit.
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