A rechargeable battery is constructed based on a concentration cell constructed
ID: 955962 • Letter: A
Question
A rechargeable battery is constructed based on a concentration cell constructed of two Ag/Ag+half-cells. The volume of each half-cell is 1.9 L and the concentrations of Ag+ in the half-cells are 1.15 M and 1.3×103 M .
1)What is the concentration of Ag+ at the cathode after the cell is run at 3.6 A for 5.7 h ? Express your answer using two significant figures.
2)What is the concentration of Ag+ at the cathode when the cell is "dead"?
3)For how long can this battery deliver 2.3 A of current before it goes dead? Express your answer using two significant figures.
Explanation / Answer
1) the current passed = 3.6 A
time = 5.7 hours
So charge passed = Q = IXt = 3.6 X 5.7 X 3600 seconds = 73872 Coulumbs
According to Faraday's law :
The amount of Ag deposited at cathode will be : 1 gram equivalent will be deposited if 1Faraday of charge is passed
Or 108 grams of Ag will be reduced if 96485 C of charge is passed
so amount of Ag reduced by passing 73872 = 108 /x 73872 / 96485 = 82.68 grams
Or 0.765 gram equivalents
Initially equivalent of Ag+ present = moles of Ag+ = Molarity X volume = 1.15 X 1.9 = 2.185
After passing current Ag+ equivalents left = 2.185 - 0.765 = 1.42 equivalents
concentration = 1.42 / 1.9 = 0.747 molar
2) The cell will be dead when the E = 0
Ecell = -0.0592 log [Q] = 0
concentration of two cells become = equal
1.15 + 0.0013 /2 = 0.575
The concentration of two cell will become = 0.576
3) To reach this concentration means we need to attain the equivalents = 0.576 X 1.9 = 1.094 equivalents
Initial equivalents = 2.185
so the equivalents deposited = 2.185 - 1.094 = 1.091 equivalents
For 1 equivalent the charge required = 1 Faraday = 96485 C
So for 1.091 = 96485 X 1.091 C = 105265.14 C
Charge = Current x time in seconds
So time = Charge / current = 105265.14 C / 2.3 = 45767.45 seconds
or 12.71 hours