A) \[+\,43.93\,kJ/mol\]
B) \[-43.93\,kJ/mol\]
C) \[527.61\,kJ/mol\]
D) \[-527.61\,kJ/mol\]
Correct Answer: A
Solution :
(I) \[{{H}_{2}}(g)+\frac{1}{2}{{O}_{2}}(g)\xrightarrow{{}}{{H}_{2}}O(l);\] \[\Delta \Eta =-285.77\,kJ/mol\] (II) \[{{H}_{2}}(g)+\frac{1}{2}{{O}_{2}}(g)\xrightarrow{{}}{{H}_{2}}O(g);\] \[\Delta \Eta =-241.84\,kJ/mol\] \[{{H}_{2}}O(l)\xrightarrow{{}}{{H}_{2}}O(g);\] \[\Delta \Eta =?\] Subtract the Eq. (I) from (II) \[{{H}_{2}}O(l)\xrightarrow{{}}{{H}_{2}}O(g)\] \[\Delta \Eta =-241.84-(-285.77)\] \[=-241.84+285.77\] \[\Delta H=+\,43.93\,kJ/mol\]You need to login to perform this action.
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