In the figure,a container is shown to have a | vedclass

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(D) Part $1$: Since the partition is fixed,the volume of each gas remains constant. Heat lost by the monatomic gas equals heat gained by the diatomic

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$(B, C)$

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(D) Part $1$: Since the partition is fixed,the volume of each gas remains constant. Heat lost by the monatomic gas equals heat gained by the diatomic gas.$n_1 C_{v1} (T_1 - T) = n_2 C_{v2} (T - T_2)$$2 	imes \frac{3}{2} R (700 - T) = 2 	imes \frac{5}{2} R (T - 400)$$3(700 - T) = 5(T - 400)$$2100 - 3T = 5T - 2000$$8T = 4100 \Rightarrow T = 512.5 \ K \approx 513 \ K$. Thus,option $(C)$ is correct.Part $2$: When the partition is free to move,the final pressure $P$ is the same in both compartments. The total internal energy of the system is conserved because the container is insulated. Initial internal energy $U_i = n_1 C_{v1} T_1 + n_2 C_{v2} T_2 = 2(\frac{3}{2}R)(700) + 2(\frac{5}{2}R)(400) = 2100R + 2000R = 4100R$.Final internal energy $U_f = (n_1 C_{v1} + n_2 C_{v2}) T_f = (3R + 5R) T_f = 8R T_f$.Since $U_i = U_f + W_{ext}$,and the piston moves against constant external pressure (or simply considering the change in internal energy),the work done by the gases is $W = \Delta U = U_i - U_f$. However,for a system where the piston moves to equalize pressure,the final state satisfies $P_1 = P_2 = P_{ext}$. The total work done by the gases is $W = P_{ext} \Delta V_{total}$. Using the first law $\Delta Q = \Delta U + W$,with $\Delta Q = 0$,$W = -\Delta U$. Calculations show $W = 100 R$. Thus,option $(C)$ is correct.

Column $I$	Column $II$
$(A)$ An insulated container has two chambers separated by a valve. Chamber $I$ contains an ideal gas and Chamber $II$ has a vacuum. The valve is opened.	$(p)$ The temperature of the gas decreases
$(B)$ An ideal monoatomic gas expands to twice its original volume such that its pressure $P \propto V^{-2}$	$(q)$ The temperature of the gas increases or remains constant
$(C)$ An ideal monoatomic gas expands to twice its original volume such that its pressure $P \propto V^{-4/3}$	$(r)$ The gas loses heat
$(D)$ An ideal monoatomic gas expands such that its pressure $P$ and volume $V$ follow the behavior shown in the graph	$(s)$ The gas gains heat

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