(Q5] (a) A 2.5 g of ideal gas at state a has a volume of 0.01 m3 and temperature of 30 C, It undergoes the following processes From state a to state b volume increases adiabaticaly to 0.032 m3. From state b to state c it expands isothermally to 0.04 m3. From state c to state d it compressed to 0.02 m3 Of a process PV1.2=const. - Find total work done. Il- When a heat of 250J is added to system, what is the change in internal energy.

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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[Q5] (a) A 2.5 g of ideal gas at state a has a volume of 0.01 m3
and temperature of 30 C, It undergoes the following processes
From state a to state b volume increases adiabaticaly to 0.032 m3.
From state b to state c it expands isothermally to 0.04 m3.
From state c to state d it compressed to 0.02 m3 Of a process PV1.2=const.
- Find total work done. Il- When a heat of 250J is added to system, what is
the change in internal energy.
Transcribed Image Text:[Q5] (a) A 2.5 g of ideal gas at state a has a volume of 0.01 m3 and temperature of 30 C, It undergoes the following processes From state a to state b volume increases adiabaticaly to 0.032 m3. From state b to state c it expands isothermally to 0.04 m3. From state c to state d it compressed to 0.02 m3 Of a process PV1.2=const. - Find total work done. Il- When a heat of 250J is added to system, what is the change in internal energy.
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