`{:((A)DeltaG^(Theta)gt 0,,,,(i)K gt1),((B)Delta G^(Theta)lt 0,,,,(ii)K=1),((C)DeltaG^(Theta)gt 0,,,,(iii)K=0),( ,,,,(iv)Klt1):}`

Calculate (a) DeltaG^(Theta) and (b) the equilibrium constant for the formation of NO_(2) from NO and O_(2) at 298 K NO(g) +1//2 O_(2) (g) hArr NO_(2)(g) where Delta_(f) G^(Theta) (NO_(2)) =52 .0 kJ//mol, Delta_(f) G^(Theta) (NO) =87.0 kJ//mol, Delta_(f) G^(Theta) (O_(2)) =0kJ//mol.

lim_ (e-> 0) (sqrt (1-cos theta)) / (theta)

For a hypothetical reaction A+B to C if DeltaG^(@) gt 0

The number of correct options is (a) 1^(Theta) gt Br^(Theta) gt CI^(Theta) gt F^(Theta) (polarisability) (b) Li^(o+) gt Na^(o+) gt K^(o+) gt Rb^(o+) (polarisation power) (c ) H_(2)Ogt H_(2)S gtH_(2)Se gtH_(2) Te (order of b.pt) (d) H_(2)^(Theta) lt H_(2)^(o+) (order of stability) .

Calculate DeltaG^(Theta) for the following reaction: CO(g) +((1)/(2))O_(2)(g) rarr CO_(2)(g), DeltaH^(Theta) =- 282.84 kJ Given, S_(CO_(2))^(Theta)=213.8 J K^(-1) mol^(-1), S_(CO(g))^(Theta)= 197.9 J K^(-1) mol^(-1), S_(O_(2))^(Theta)=205.0 J K^(-1)mol^(-1) ,

Expalin the state of chemical reactions when : (i) DeltaG =0 (ii) DeltaG lt 0 and (iii) DeltaG gt 0

A porcess is nonspontaneous at evey temperature if (i) Delta H gt 0, Delta S = 0 (ii) Delta H lt 0, Delta S gt 0 (iii) Delta H gt 0, Delta S lt 0 (iv) Delta H = 0, Delta S lt 0