aula #20 · aula #20. electrochemistry electrochemical processes are oxidation-reduction reactions...
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Aula #20
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Electrochemistry
Electrochemical processes are oxidation-reduction reactions in which:
• the energy released by a spontaneous reaction is converted to electricity
• electrical energy is used to cause a nonspontaneous reaction to occur
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Electrochemistry
Zn (s) | Zn2+ (1 M) || H+ (1 M) | H2 (1 atm) | Pt (s)
E0 = 0 V
Zn2+ (1 M) + 2e- Zn E0 = -0.76 V
(E0 = 0 V) E0 = 0 V
+
+Reduction Reaction
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Electrochemistry
Standard Reduction Potentials
Zn (s) | Zn2+ (1 M) || H+ (1 M) | H2 (1 bar) | Pt (s)
2e- + 2H+ (1 M) H2 (1 bar)
Zn (s) Zn2+ (1 M) + 2e-Anode (oxidation):
Cathode (reduction):
Zn (s) + 2H+ (1 M) Zn2+ + H2 (1 bar)
E0 = 0 V
E0 = 0 V
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Cu2++ Zn(s) Cu(s) + Zn2+
Electrochemistry
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Galvanic Cells
The difference in electrical potential between the anode and cathode is called:
• cell voltage
• electromotive force (emf)
• cell potential
Cell Diagram
Zn (s) + Cu2+ (aq) Cu (s) + Zn2+ (aq)
[Cu2+] = 1 M & [Zn2+] = 1 M
Zn (s) | Zn2+ (1 M) || Cu2+ (1 M) | Cu (s)
anode cathode
Electrochemistry
Oxidation reaction Reduction reaction
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Electrochemistry
Zn (s) + Cu2+ (aq) Cu (s) + Zn2+ (aq)
E0 = Ecathode - Eanodecell
0 0
Cell Potentials
The Nernst Equation
The Nernst Equation allows us to calculate the voltage of a "non-standard" Voltaic/Galvanic cell
= 96,485 C/mol
F...constante de Faraday
E0 = 0.35 – (-0.76) = 1.11 Vcell
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Electrochemistry
Zn (s) + Cu2+ (aq) Cu (s) + Zn2+ (aq)
E0 = Ecathode - Eanodecell
0 0Cell Potentials
[Cu2+]
[Zn2+]
The Nernst Equation
The Nernst Equation allows us to calculate the voltage of a "non-standard" Voltaic/Galvanic cell
= 96,485 C/molF...constante de Faraday
E0 = 0.35 – (-0.76) cell
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Electrochemistry
DG0 = -RT ln K = -nFEcell0
Will the following reaction occur spontaneously at 250C if [Fe2+] = 0.60 M and [Cd2+] = 0.010 M?
Fe2+ (aq) + Cd (s) Fe (s) + Cd2+ (aq)
E0 = -0.44 – (-0.40)
E0 = -0.04 V -
0.0257 Vn
ln QE0
E =
-0.0257 V
2ln -0.04 VE =
0.0100.60
E = 0.013 V
E > 0 Spontaneous
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Electrochemistry
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Electrochemistry
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Electrochemistry
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Electrochemistry
DG0 = -RT ln K = -nFEcell0
The Effect of Concentration on Cell Emf
DG = DG0 + RT ln Q DG = -nFE DG0 = -nFE0
-nFE = -nFE0 + RT ln Q
E = E0
- ln QRTnF
Nernst equation
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Electrochemistry
DG0 = -RT ln K
DG0 = -nF.Ecell
0
n = number of moles of electrons in reaction
F = 96,485J
V • mol= 96,485 C/mol
F...constante de Faraday
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Electrochemistry
DG0 = -RT ln K
DG0 = -nF.Ecell
0
n = number of moles of electrons in reaction
F= 96,485 C/mol
F...constante de Faraday
Zn (s) + Cu2+ (aq) Cu (s) + Zn2+ (aq)
anode cathode
Oxidation reaction Reduction reaction
![Page 16: Aula #20 · Aula #20. Electrochemistry Electrochemical processes are oxidation-reduction reactions in which: • the energy released by a spontaneous reaction is converted to electricity](https://reader031.vdocuments.us/reader031/viewer/2022013010/5f2dfcaa518b376726048105/html5/thumbnails/16.jpg)
ElectrochemistryF...constante de Faraday
Zn (s) + Cu2+ (aq) Cu (s) + Zn2+ (aq)
anode cathode
Oxidation reaction Reduction reaction
DG0 = -nF.Ecell
0
F= 96,485 C/mol
[Cu2+]
[Zn2+]
1/Q
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Electrochemistry
DG0 = -nFEcell
0 F...constante de Faraday
96,485 C/mol
DG0 = -RT ln K = -nFEcell0
Ecell0 =
RTnF
ln K(8.314 J/K•mol)(298 K)
n (96,485 J/V•mol)ln K=
=0.0257 V
nln KEcell
0 =0.0592 V
nlog KEcell
0T= 298 K
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Electrochemistry
DG0 = -RT ln K = -nFEcell0
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Electrochemistry
DG0 = -RT ln K = -nFEcell0
2e- + Fe2+ Fe
2Ag 2Ag+ + 2e-Oxidation:
Reduction:
What is the equilibrium constant for the following reaction at 250C?
Fe2+ (aq) + 2Ag (s) Fe (s) + 2Ag+ (aq)
=0.0257 V
nln KEcell
0
E0 = -0.44 – (0.80)
E0 = -1.24 V
0.0257 V
x nE0cellexpK =
n = 2
0.0257 V
x 2-1.24 V= exp K = 1.23 x 10-42
E0 = EFe/Fe – EAg /Ag0 02+
+
=0.0257 V
nln KEcell
0