Calculate the entropy change `(J//mol K)` of the given reaction. The molar entropies `(J//K-mol)` are given in brackets after each substance:
`2PbS(s)[19.2]+3O_(2)(g)[205.1]`
` to 2PbO(s)[66.5]+2O_(2)(g)[248.2]`

Calculate the entropy of Br_(2)(g) in the reaction H_(2)(g)+Br_(2)(g)rarr2HBr(g), Delta S^(@)=20.1 JK^(-1) given, entropy of H_(2) and HBr is 130.6 and 198.5 J mol^(-1)K^(-1) :-

Calculate the entropy change at 298K for the reaction Br_(2)(l) +CI_(2)(g) rarr 2BrCI(g) DeltaH = 29.3 kJ at 298K . The entropies of Br_(2)(l), CI_(2)(g) , and BrCI(g) at the above temperature and 152.3, 223.0 and 239.7 J mol^(-1)K^(-1) respectively.

Calculate the change in entropy for the following reaction 2CO(g) +O_(2)(g) rarr 2CO_(2)(g) Given: S_(CO)^(Theta)(g)=197.6 J K^(-1)mol^(-1) S_(O_(2))^(Theta)(g)=205.03 J K^(-1)mol^(-1) S_(CO_(2))^(Theta)(g)=213.6 J K^(-1)mol^(-1)

Calculate the entropy changes for the following reactions : (i) 2CO(g) + O_(2)(g) to 2CO_(2)(g) (ii) 2H_(2)(g) + O_(2)(g) to 2H_(2)O(l) Entropies of different compounds are : CO(g) = 197.6 J K^(-1) "mol"^(-1), O_(2)(g) = 205.03 J K^(-1) "mol"^(-1) CO_(2)(g) = 213.6 JK^(-1) "mol"^(-1), H_(2)(g) = 130.6 J K^(-1) "mol"^(-1) H__(2)O(l) = 69.96 J K^(-1) "mol"^(-1)

Calculate the entropy change for the following reaction H_(2)(g) +CI_(2)(g) rarr 2HCI (g) at 298 K Given S^(Theta)H_(2) = 131 J K^(-1) mol^(-1), S^(Theta)CI_(2) = 233 J K^(-1) mol^(-1) , and S^(Theta) HCI = 187 J K^(-1) mol^(-1)

Determine the entropy change for the reaction given below: 2H_(2)(g) +O_(2)(g) rarr 2H_(2)O(l) at 300K . If standard entropies of H_(2)(g), O_(2)(g) , and H_(2)O(l) are 126.6, 201.20 , and 68.0 J K^(-1) mol^(-1) , respectively.

The standard molar entropy of H_(2)O(l) is 70 JK^(-1)mol^-1 . Standard molar entropy of H_(2)O(s) is