Two identical adiabatic vessels are filled with oxygen at pressure $P_1$ and $P_2$ $(P_1 > P_2)$. The vessels are interconnected with each other by a non-conducting pipe. If $U_{01}$ and $U_{02}$ denote the initial internal energy of oxygen in the first and second vessel respectively,and $U_{f1}$ and $U_{f2}$ denote the final internal energy values,then:
- A$\frac{U_{01}}{U_{02}} = \frac{P_1}{P_2}, U_{f1} > U_{f2}$
- B$\frac{U_{01}}{U_{02}} = \frac{P_2}{P_1}, U_{f1} > U_{f2}$
- C$\frac{U_{01}}{U_{02}} = \frac{P_2}{P_1}, U_{f1} = U_{f2}$
- D$\frac{U_{01}}{U_{02}} = \frac{P_1}{P_2}, U_{f1} = U_{f2}$
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View SolutionIn Column-$I$ processes and in Column-$II$ the first law of thermodynamics are given. Match them appropriately:
Column-$I$ Column-$II$ $(a)$ Adiabatic $(i)$ $\Delta Q = \Delta U$ $(b)$ Isothermal $(ii)$ $\Delta Q = \Delta W$ $(iii)$ $\Delta U = -\Delta W$
| Column-$I$ | Column-$II$ |
|---|---|
| $(a)$ Adiabatic | $(i)$ $\Delta Q = \Delta U$ |
| $(b)$ Isothermal | $(ii)$ $\Delta Q = \Delta W$ |
| $(iii)$ $\Delta U = -\Delta W$ |
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