Assuming `Delta_(r )H^(Θ)` and `Delta_(r ) S^(Θ)` to be independent of temperature, at what temperature will the reaction given below becomes spontaneous ?
`{:(,N_(2)(g),+,O_(2)(g),rarr,2NO(g),,,Delta_(r )H^(Θ)=180.9 kJ mol^(-1)),(S^(Θ)//JK^(-1)mol^(-1),191.4,,204.9,,210.5,,):}`

Calculate the temperature above which the reaction of lead oxide to lead in the following reaction become spontaneous. PbO(s) + C(s) rarr Pb(s) + CO(g) Given Delta H = 108.4 kJ mol^(-1), Delta S = 190 JK^(-1) mol^(-1)

Calculate the temperature above which the reduction of lead oxide to lead in the following reaction become spontaneous. PbO(s) + C(s) rightarrow Pb(s) + CO(g) Given Delta H = 118.4 kJ mol^(-1), Delta S = 200 JK^(-1) mol^(-1) .

Comment on the thermodynamic stability of NO(g) , given 1/2N_(2)(g)+1/2O_(2)(g)rarr NO(g), Delta_(r)H^(Θ)=90 kJ mol^(-1) NO(g)+1/2O_(2)(g) rarr NO_(2)(g), Delta_(r)H^(Θ)=-74 kJ mol^(-1)

Compute the Gibbs energy change of the reaction at 27^(@)C for the combustion of methane. {:(" "CH_(4)(g)+2O_(2)(g)rarr CO_(2)(g)+2H_(2)O(l)),(Delta_(f)H^(Θ)("in kh mol"^(1))" "-74.8 " "- " "-393.5 " "-285.8),(S_(m)^(Θ)("in J K^(-1)mol"^(-1))" 186 205 214 70"):}

The temperature at which the given reaction is at equilibrium Ag_(2)O_(s) rightarrow 2Ag(s) + 1/2 O_(2)(g) Delta H = 40.5 kJ mol^(-1) and DeltaS= 0.086 k J mol^(-1) K^(-1)

Calculate Delta_(r )G at 298 K for the following reaction if the reaction mixture consists of 1 atm of N_(2), 3 atm of H_(2) and 1 atm of NH_(3). N_(2)(g)+3H_(2)(g) hArr 2NH_(3)(g) , Delta_(r ) G^(Θ)=-33.2 kJ

Standard molar enthalpy of formation, Delta_(f) H^(Θ) is just a special case of enthalpy of reaction, Delta_(r) H^(Θ) . Is the Delta_(r) H^(Θ) same as standard molar enthalpy of formation ? Given reason for your answer. CaO (s) + CO_(2) (g) rarr CaCO_(3) (s) , Delta_(f) H^(Θ) = - 178.3 kJ mol^(-1)

P(g)+2Q(g)toPQ_(2)(g),DeltaH=18kJmol^(-1) The entropy change of the above reaction (DeltaS_("system") is 60 JK^(-1)mol^(-1)) . At what temperature the reaction becomes spontaneous?

What will be the heat of reaction for the following reaction? Will the reaction be exothermic or endothermic? Fe_(2)O_(3(s))+3H_(2(g))rarr 2Fe_((s))+3H_(2)O_((l)) Delta_(f)H^(@)(H_(2)O,l)=-"285.83 kJ mol"^(-1) Delta_(f)H^(@)(Fe_(2)O_(3),s)=-"824.2 kJ mol"^(-1)

Calculate (a) DeltaG^(Θ) and (b) the equilibrium constant for the formation of NO and O_(2) at 298 K NO(g)+1//2 O_(2)(g) hArr NO_(2)(g) where Delta_(f)G^(Θ)(NO_(2))=52.0 kJ mol^(-1) Delta_(f)G^(Θ)(NO)=87.0 kJ mol^(-1) Delta_(f)G^(Θ)(O_(2))=0 kJ mol^(-1)