The entropy versus temperature plot for phase | vedclass

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(A) $(1)$ At $1 \ bar$,for the phase transition $\alpha \rightarrow \beta$:$S_{\beta(T)} - S_{\alpha(T)} = (S_{\beta(0)} - S_{\alpha(0)}) + \int_{0}^{

Vedclass · Accepted Answer

$0.31, 300$

Vedclass · Answer

(A) $(1)$ At $1 \ bar$,for the phase transition $\alpha ightarrow \beta$:$S_{\beta(T)} - S_{\alpha(T)} = (S_{\beta(0)} - S_{\alpha(0)}) + \int_{0}^{T} \frac{C_{p, \beta} - C_{p, \alpha}}{T} dT$Given $S_{\beta} - S_{\alpha} = 0$ at $0 \ K$,and $\Delta C_p = 1 \ J \ mol^{-1} \ K^{-1}$:$S_{\beta(T)} - S_{\alpha(T)} = \Delta C_p \ln(\frac{T}{T_0})$ is not applicable directly as $T_0=0$. However,from the graph at $600 \ K$,$S_{\beta} - S_{\alpha} = 6 - 5 = 1 \ J \ mol^{-1} \ K^{-1}$.Using the relation $\Delta S_T = \Delta S_{T_0} + \Delta C_p \ln(\frac{T}{T_0})$ is incorrect here; instead,use $\Delta S_{T_2} = \Delta S_{T_1} + \Delta C_p \ln(\frac{T_2}{T_1})$.$S_{\beta(600)} - S_{\alpha(600)} = (S_{\beta(300)} - S_{\alpha(300)}) + \Delta C_p \ln(\frac{600}{300})$$1 = (S_{\beta(300)} - S_{\alpha(300)}) + 1 	imes \ln(2)$$1 = (S_{\beta(300)} - S_{\alpha(300)}) + 0.69$$S_{\beta(300)} - S_{\alpha(300)} = 0.31 \ J \ mol^{-1} \ K^{-1}$.$(2)$ At the transition temperature $600 \ K$,$\Delta G = 0$,so $\Delta H_{600} = T \Delta S_{600} = 600 	imes 1 = 600 \ J \ mol^{-1}$.Using Kirchhoff's law: $\Delta H_{T_2} - \Delta H_{T_1} = \Delta C_p (T_2 - T_1)$$\Delta H_{600} - \Delta H_{300} = 1 	imes (600 - 300) = 300 \ J \ mol^{-1}$$\Delta H_{300} = 600 - 300 = 300 \ J \ mol^{-1}$.

Column $I$	Column $II$
$A$. $CO_{2(s)} \rightarrow CO_{2(g)}$	$p$. phase transition
$B$. $CaCO_{3(s)} \rightarrow CaO_{(s)} + CO_{2(g)}$	$q$. allotropic change
$C$. $2H_{(g)} \rightarrow H_{2(g)}$	$r$. $\Delta H$ is positive
$D$. $P_{(\text{white, solid})} \rightarrow P_{(\text{red, solid})}$	$s$. $\Delta S$ is positive
	$t$. $\Delta S$ is negative

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