Calculate the non standard Gibbs Free Energy change, G at 250C for the following
ID: 693448 • Letter: C
Question
Calculate the non standard Gibbs Free Energy change, G at 250C for the following reaction with the indicated concentrations.
Zn + 2Ag+ (0.30M) 2Ag + Zn2+ (0.50M)
Remember you'll need to calculate both the standard and non standard cell potential Ecell.
Remember G0 = nFE0cell and a similar equation for the NONstandard value G = nFEcell
Here are the standard reduction potentials:
Zn2+/ Zn: - 0.763V
Ag+/ Ag: + 0.799V
Answer in kJ to 3SF including signs as needed
Part 2
Calculate the value of lnK where K is the equilibrium constant at 250C for the following reaction with the indicated concentrations.
Zn + 2Ag+ (0.30M) 2Ag + Zn2+ (0.50M)
You should have already calculated both the standard and non standard cell potentials.
Remember G0 = nFE0cell and G0 = - RTlnK
You must use the standard value of G to find K!!!
Think about what value of Ecell you need to use!!
Give your answer to lnK to 3SF
Explanation / Answer
Zn + 2Ag+ (0.30M) ----> 2Ag + Zn2+ (0.50M)
E0cell = Ecathode - E0anode
= 0.799 -(-0.763)
= 1.562 v
DG0 = -nFE0cell
= -2*96500*1.562
= -301.5 kj
= -3.01*10^2 kj
Ecell = E0cell- (0.0591/n)log([Zn2+]/[Ag+]^2
= 1.562-(0.0591/2)log(0.5/0.3^2)
= 1.54 v
DG = - nFEcell
= -2*96500*1.54
= -297.22 kj
= -2.97*10^2 kj
part 2
DG0 = -3.01*10^2 kj
DG0 = - RTlnK
-3.01*10^5 = -8.314*298lnK
lnK = 121.5
K = 5.79*10^52
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