4) An ideal gas undergoes a constant volume (isochoric) process in a closed system. The heat transfer and work are, respectively a. 0, -c, AT d. R In(T₂/T₁), R In (T₂/T₁) e. 294000 Pa 5) An ideal gas undergoes a constant pressure (isobaric ) process in a closed system. The heat transfer and work are, respectively a. 0, -c, AT b. c, AT, 0 c. cp AT, RAT d. R In(T₂/T₁), R INAT e. R InAT, R In (T₂/T₁) b. c, AT, 0 c. c, AT, RAT

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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4) An ideal gas undergoes a constant volume (isochoric) process in a closed system. The heat
transfer and work are, respectively
a. 0, -c, AT
b. c, AT, 0
c. cp AT, RAT
d. R In (T₂/T₁), R In (T₂/T₁)
e. 294000 Pa
5) An ideal gas undergoes a constant pressure ( isobaric) process in a closed system. The heat
transfer and work are, respectively
a. 0, -c, AT
b. c, AT, 0
c. cp AT, RAT
d. R In(T₂/T₁), R INAT
e. R InAT, R In (T₂/T₁)
Transcribed Image Text:4) An ideal gas undergoes a constant volume (isochoric) process in a closed system. The heat transfer and work are, respectively a. 0, -c, AT b. c, AT, 0 c. cp AT, RAT d. R In (T₂/T₁), R In (T₂/T₁) e. 294000 Pa 5) An ideal gas undergoes a constant pressure ( isobaric) process in a closed system. The heat transfer and work are, respectively a. 0, -c, AT b. c, AT, 0 c. cp AT, RAT d. R In(T₂/T₁), R INAT e. R InAT, R In (T₂/T₁)
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