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An ideal monoatomic gas occupies volume `10^(-3)m^(3)` at temperature `3K` and pressure `10^(3)`Pa. The internal energy of the gas is taken to be zero at this point. It undergoes the following cycle: The temperature is raised to `300K` at constant volume, the gas is then expanded adiabatically till the temperature is `3K` , followed by isothermal compression to the original volume . Plot the process on a `PV` diagram. Calculate (i) The work done and the heat transferred in each process and the internal energy at the end of each process, (ii) The thermal efficiency of the cycle.

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The correct Answer is:
(i) For process `A rarr W =0 , Q = 148.5J`
For process `B rarr W =148.5J , Q =0 , U = 148.5J`
For process `C rarr W= 6.9 J ,Q=-6.9J , U = 0` (ii) `eta= 0.954`
`(##ALN_PHY_C07(I)_E01_282_A01##)`
`PV = nRT implies n =(PV)/(RT) = ((10^(3))(10^(-3)))/((25//3)(3)) = (1)/(25)`
For process `AB W = 0 , Q = DeltaU = nC_(V)DeltaT`
=`((1)/(25))((3)/(2)R) (300-3) = (297)/(2) = 148.5J`
For process `BC Q= 0 , W = (nR)/(gamma-1)(T_(1)-T_(2)) = (((1)/(25))((25)/(3)))/(((5)/(3)-1))[300-3]`
=`148.5 J "and" DeltaU = -W = -148.5J`
For process `CA DeltaU=0`
`W= nRTln((V_(A))/(V_(C))) = -6.9J"and" Q = W = -6.9J`
Thermal efficiency `(Q_("net"))/(Q_("supplied")) = (148.5 -6.9)/(148.5) = 0.954`
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