The free energy change the due to a reaction is zero when

The free energy change due to a reaction is zero when

Standard Gibbs free enegry change DeltaG^(Theta) for a reaction is zero. The value of the equilibrium constant will be:

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 :-

The free energy change DeltaG = 0 , when

The free energy change, Delta G = 0, when

A reaction is spontaneous if free energy change Delta G for the reaction is negative . The question arises, how we can explain , the spontaneous reversible reaction. Taking the example of dissociation equilibrium N_2 O_4 hArr 2NO_2(g) the variation of free energy with the fraction of N_2O_4 dissociated under standard conditions is shown in the figure below. When 1 mole of N_2O_4 changes into the equilibrium mixture the value of DeltaG^@ is

A reaction is spontaneous if free energy change DeltaG , for the reaction is negative . The question arises, how we can explain , the spontaneous of reversible reaction taking the example of dissociation equilibrium N_2O_4 hArr 2NO_2(g) the variation of free energy with the fraction of N_2O_4 dissociated under standard conditions is shown in the figure below. When 2 moles of NO_2 change into equilibrium mixture the value of DeltaG^@ is

The standard free energy change for a reaction is -213.3 KJ mol^(-1) "at" 25^(@)C . If the enthalpy change of the reaction is -217.77 KJ "mole"^(-1) . Calculate the magnitude of entropy change for the reaction in Joule "mole"^(-1)

A reaction is spontaneous if free energy change Delta G , for the reaction is negative . The question arises, how we can explain , the spontaneous reversible reaction taking the example of dissociation equilibrium , N_2O_4 hArr 2NO_2(g) . the variation of free energy with the fraction of N_2O_4 dissociated under standard conditions is shown in the figure below. The standard free energy change for the conversion of 1 mole of N_2O_4 into 2 moles of NO_2 is

The Gibbs free energy change of a reaction at 27^(@)C is -26 Kcal. and its entropy change is -60 Cals/K. Delta H for the reaction is :-