One mole of an ideal gas passes through ...

One mole of an ideal gas passes through a process where pressure and volume obey the relation `P=P_0 [1-1/2 (V_0/V)^2]` Here `P_0` and `V_0` are constants. Calculate the change in the temperature of the gas if its volume changes from `V_0` to `2V_0`.

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One mole of an ideal gas undergoes a process P = P_(0) [1 + ((2 V_(0))/(V))^(2)]^(-1) , where P_(0) V_(0) are constants. Change in temperature of the gas when volume is changed from V = V_(0) to V = 2 V_(0) is:

One mole of an ideal gas undergoes a process p=(p_(0))/(1+((V_(0))/(V))^(2)) . Here, p_(0) and V_(0) are constants. Change in temperature of the gas when volume is changed from V=V_(0) to V=2V_(0) is

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