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An ideal gas (1 mol, monatomic) is in th...

An ideal gas `(1` mol, monatomic) is in the intial state `P` (see Fig.) on an isothermal `A` at temperature `T_(0)`. It is brought under a constant volume `(2V_(0))` process to `Q` which lies on an adiabatic `B` intersecting the isothermal `A` at `(P_(0),V_(0),T_(0))`. The change in the internal energy of the gas during the process is (in terms of `T_(0)) (2^(2//3) = 1.587)`

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An ideal gas (1 mol ,monatomic) is in the initial state P (see diagram) on an isothermal curve A at a temperature T_0 . It is brought under a constant volume (2V_0) process to Q which lies on an adiabatic curve B intersecting the isothermal curve A at (P_0,V_0,T_0) . The change in the internal energy of the gas (in terms of T_0 ) during the process is (2^(2//3)=1.587)

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