Based on the following thermochemical equatio | vedclass

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(A) Given equations:$(1) \ H_2O_{(g)} + C_{(s)} 	o CO_{(g)} + H_{2(g)}; \Delta H = 131 \ kJ$$(2) \ CO_{(g)} + \frac{1}{2}O_{2(g)} 	o CO_{2(g)}; \Del

Vedclass · Accepted Answer

$-393$

Vedclass · Answer

(A) Given equations:$(1) \ H_2O_{(g)} + C_{(s)} 	o CO_{(g)} + H_{2(g)}; \Delta H = 131 \ kJ$$(2) \ CO_{(g)} + \frac{1}{2}O_{2(g)} 	o CO_{2(g)}; \Delta H = -282 \ kJ$$(3) \ H_{2(g)} + \frac{1}{2}O_{2(g)} 	o H_2O_{(g)}; \Delta H = -242 \ kJ$Adding equations $(1)$,$(2)$,and $(3)$:$(H_2O_{(g)} + C_{(s)} + CO_{(g)} + \frac{1}{2}O_{2(g)} + H_{2(g)} + \frac{1}{2}O_{2(g)}) 	o (CO_{(g)} + H_{2(g)} + CO_{2(g)} + H_2O_{(g)})$Canceling common terms on both sides:$C_{(s)} + O_{2(g)} 	o CO_{2(g)}$Therefore,$\Delta H = 131 + (-282) + (-242) = X$$X = 131 - 524 = -393 \ kJ$.

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