Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and...
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Transcript of Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and...
![Page 1: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/1.jpg)
Chemistry
![Page 2: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/2.jpg)
Session
Electrochemistry - 3
![Page 3: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/3.jpg)
Session Objective
• Nernst equation
• Equilibrium constant and Nernst equation
• Primary cell(Batteries)
• Secondary cell(Batteries)
• Fuel Cell
• Corrosion and its prevention.
![Page 4: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/4.jpg)
Nernst Equation
For a general reduction reaction,
nM ne M(s)
0n+ n+M / M M / M
RT 1E = E - 2.303 log n+nF [M ]
The Nernst equation can be written as
0.059 1oE = E - logn+ n+ n+M /M M /M n M
Where n = Number of electrons involved
[Mn+] = molar concentrations at 298K
(At 298K)
![Page 5: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/5.jpg)
Illustrative ExampleCalculate the electrode potential at a copper electrode dipped in a 0.1M solution of copper sulphate at 250C . The standard potential of Cu2+/Cu system is 0.34 volt at 298 K.
Solution:
0 2redPutting the values of E 0.34 V,n 2 and [Cu ] 0.1 M
red 100.0591
E 0.34 log [0.1]2
0.34 0.02955 ( 1)
0.31045 volt
Cu2+ + 2e- Cu
2 2
0 210Cu / Cu Cu / Cu
0.0591We know that E E log [Cu ]
n
![Page 6: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/6.jpg)
Equilibrium constant from Nernst equation
Consider the following cell reaction in equilibrium then
2+ 2+Zn(s) +Cu (aq) Zn +Cu(s)
2+0
2+
2+0
2+
2.303RT [Zn ]E = 0 = E (cell) - log
2F [Cu ]
2.303RT [Zn ]E (cell) = log
2F [Cu ]
Then Nernst equation is:
2+
c2+
0c
0
[Zn ]At equilibrium = K
[Cu ]
2.303RTTherefore, E (cell) = logK
2F2.303RT
Generally, E (cell) = logK2F
Progress of reaction
Ele
ctro
de p
ote
nti
al
Reduction half reaction
Oxidation half reaction
Equilibrium point
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Illustrative Example
Calculate the equilibrium constant of the reaction:
Cu(s)+2Ag+(aq.)Cu2+(aq.)+Cu(s) E0=0.46 V
Solution :
0c
c
15c
0.059E (cell) = log K
20.46×2
log K = =15.60.059
K = 4×10
![Page 8: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/8.jpg)
Electrochemical cell and Gibbs Energy of the reaction
r
2+ 2+
r
Δ G = -nFE
e.g. for cell reaction
Zn(s) +Cu (aq.) Zn (aq.) +Cu(s)
Δ G = -2FE
0 0r r
0 0r
0r
I f the reactants are in standard state then,
Δ G = Δ G , E = E
Δ G = -nFE
RT= -nF × lnK
nF
Δ G = -RTlnK
![Page 9: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/9.jpg)
Illustrative Example
2 2cell Cu /Cu Zn / ZnE E E
Solution
= + 0.34 V – (–0.76 V) = 1.10 V
G° = –nFE°
= 2×96500×1.10
= –212.3 kJ mol–1
o
Zn /Zn2+E 02+Cu /Cu
E
Calculate G° for Zn-Cu cell at standard state conditions
[Given = –0.76 V, = +0.34 V ]
![Page 10: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/10.jpg)
Commercial Cells
Primary Cell
Dry Cell
![Page 11: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/11.jpg)
Commercial Cells
2
2 2 2 3Zn(s) 2MnO (s) H O Zn Mn O 2OH
The oxidation taking place at the negative zinc electrode.
The reduction takes place at positive electrode
The net cell reaction is
The emf of the cell is about 1.45 V.
2+ -Zn(s) Zn (aq)+2eAnode:
- -
2 2 2 32MnO +H O +2e Mn O +2OHCathode:
![Page 12: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/12.jpg)
Net cell reaction is reversible. Hence, it can be recharged.
Secondary Cells
Lead storage battery
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Lead storage battery
At anode:
2- -4 4Pb s + SO aq. PbSO s + 2e
2- + -2 4 4 2PbO + SO aq. + 4H aq. + 2e PbSO s +2H O
+ 2-2 4 4 2Pb s +PbO s +4H aq. +2SO aq. 2PbSO s +2H O
At cathode:
Overall reaction:
![Page 14: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/14.jpg)
Secondary Cell
In the above equation H2SO4 is used up during the discharge.During recharging the reactions are the reverse of those that occurs during discharge.
At cathode:
24 4PbSO s 2e Pb s SO aq.
24 2 2 4PbSO s 2H O PbO SO aq. 4H aq. 2e
At anode:
24 2 2 42PbSO s 2H O Pb s PbO s 4H aq. 2SO aq.
Overall reaction:
![Page 15: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/15.jpg)
Fuel Cells
Galvanic cells which converts energy of combustion of fuel like hydrogen, methane and methanol etc. directly into electrical energy are called fuel cells.
![Page 16: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/16.jpg)
One of the most successful fuel cell uses hydrogen and oxygen reaction to form water.
At cathode: O2(g)+2H2O(l)+4e- 4OH-(aq.)
At anode: 4H2O(l)+4e- 2H2 + 4OH-(aq.)
Overall cell reaction is:
2H2(g)+O2(g) 2H2O(l)
Efficiency of fuel cell is 70% much more as compared thermal plants(40%).
Example
![Page 17: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/17.jpg)
Corrosion
Process of slowly eating away of the metal due to attack of atmospheric gases on the surface of the metal.
• Rusting of iron
• Tarnishing of silver
• Development of green coating on copper and bronze, etc.
Examples of corrosion
![Page 18: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/18.jpg)
Corrosion
![Page 19: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/19.jpg)
• Barrier protection
• Using anti rust solutions
• Sacrificial protection
Methods of preventing corrosion
For example iron surface is covered with a metal which has higher tendency to get oxidized (larger negative value of standard reduction potential) than iron.
Zinc is used for covering iron and the process is called galvanization.
![Page 20: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/20.jpg)
The standard reduction potentials of Sn+2/Sn and Zn+2/Zn are respectively –0.14V, -0.76V. Predict whether the corrosion of tin can be prevented by coating with zinc or not.
Illustrative Example
Zinc lies above tin in the electrochemical series, therefore it has a lower reduction potential than tin.This property is employed to prevent corrosion of tin by coating it with zinc as zinc acts as a sacrificial electrode.
Solution :
![Page 21: Chemistry. Session Electrochemistry - 3 Session Objective Nernst equation Equilibrium constant and Nernst equation Primary cell(Batteries) Secondary.](https://reader035.fdocuments.us/reader035/viewer/2022081504/56649e365503460f94b25e25/html5/thumbnails/21.jpg)
Thank you