For the reaction:
`X_(2)O_(4)(l)rarr2XO_(2)(g)`
`DeltaU=2.1 kcal , DeltaS =20 "cal" K^(-1) "at" 300 K`
Hence `DeltaG` is

For the process, H_2O(l) rarr H_2O_((g)) at 100^@C, DeltaS is

The elementary reaction O_3(g) + O(g) rarr 2 O_2(g) is

For the reaction Ag_(2)O(s)rarr 2Ag(s)+1//2O_(2)(g) the value of Delta H=30.56 KJ mol^(_1) and Delta S = 66 JK^(-1)mol^(-1) . The temperature at which the free energy change for the reaction will be zero is :-

For the reaction X_2 Y_(4(l)) to 2XY_(2(g)) at 300 K the values of DeltaU and DeltaS are 2 kCal and 20 Cal K^-1 respectively. The value of DeltaG for the reaction is _______.

K_p for the reaction. 2SO_(2(g)) O2_((g)) rarr 2SO_(3(g)) is 7.1 x 10^(24) at 298 K . Calculate DeltaG° for the reaction. R = 8.314 J K^(-1) mol^(-1) .

Identify the type of reaction 2H_(2(g))+O_(2(g))rarr2H_2O_((I))

The order of the reaction 2NO_(g)+O_(2(g))rarr 2NO_(2(g)) having Rate = k[NO_2]^2[O_2] is

Calculate Kp for the reaction, C_2H_(4(g)) + H_(2(g)) rarr C2H_(6(g)) DeltaG^@ =-100 kj mo^(1-1) at 25^@C .

For a rection, 2A (g) + B (g) rarr 2D(g) DeltaU_288^0 = - 10.5 kJ and DeltaS^0 = - 44.1 J . Calculation for DeltaG^0 for the reaction and predict whether the reaction is spontaneous or not.

For the reaction C_(3)H_(8)(g)+5O_(2) (g)rarr3CO_(2)(g)+4H_(2)O(l) at constant temperature, DeltaH-DeltaU is