JEE Exam  >  JEE Notes  >  Important Formulas for JEE Mains & Advanced  >  Important Formulas: Electrochemistry

Important Electrochemistry Formulas for JEE and NEET

Download, print and study this document offline
Please wait while the PDF view is loading
 Page 1


  
  
     
 
      
   
     
              
       
  
   
 
 
   
         
            
ELECTROCHEMISTRY
ELECTRODE POTENTIAL
For any electrode ? oxidiation potential = ? Reduction potential
E
cell
 = R.P of cathode ? R.P of anode
E
cell
 = R.P. of cathode + O.P of anode
E
cell
 is always a +ve quantity & Anode will be electrode of low R.P
Eº
Cell
 = SRP of cathode ? SRP of anode.
? Greater the SRP value greater will be oxidising power.
GIBBS FREE ENERGY CHANGE :
?G = ? nFE
cell
?Gº = ? nFEº
cell
NERNST EQUATION : (Effect of concentration and temp on emf of cell)
?G = ?Gº + RT ?nQ (where Q is raection quotient)
?Gº = ? RT ?n K
eq
E
cell
 = Eº
cell
 ? 
nF
RT
 ?n Q
E
cell
 = Eº
cell
 ? Q log
nF
RT 303 . 2
Page 2


  
  
     
 
      
   
     
              
       
  
   
 
 
   
         
            
ELECTROCHEMISTRY
ELECTRODE POTENTIAL
For any electrode ? oxidiation potential = ? Reduction potential
E
cell
 = R.P of cathode ? R.P of anode
E
cell
 = R.P. of cathode + O.P of anode
E
cell
 is always a +ve quantity & Anode will be electrode of low R.P
Eº
Cell
 = SRP of cathode ? SRP of anode.
? Greater the SRP value greater will be oxidising power.
GIBBS FREE ENERGY CHANGE :
?G = ? nFE
cell
?Gº = ? nFEº
cell
NERNST EQUATION : (Effect of concentration and temp on emf of cell)
?G = ?Gº + RT ?nQ (where Q is raection quotient)
?Gº = ? RT ?n K
eq
E
cell
 = Eº
cell
 ? 
nF
RT
 ?n Q
E
cell
 = Eº
cell
 ? Q log
nF
RT 303 . 2
  
E
cell
 = Eº
cell
 ? 
n
0591 . 0
 log Q [At 298 K]
At chemical equilibrium
?G = 0 ; E
cell
 = 0.
? log K
eq
 = 
0591 . 0
E n
o
cell
.
Eº
cell
 =
n
0591 . 0
 log K
eq
For an electrode M(s)/M
n+
.
nF
RT 303 . 2
º E E
M / M M / M
n n ? ? ? ? log 
] M [
1
n?
.
CONCENTRATION CELL :
A cell in which both the electrods are made up of same material.
For all concentration cell Eº
cell
 = 0.
(a) Electrolyte Concentration Cell :
eg. Zn(s) / Zn
2+
 (c
1
) || Zn
2+
(c
2
) / Zn(s)
E = 
2
0591 . 0
 log 
1
2
C
C
(b) Electrode Concentration Cell :
eg. Pt, H
2
(P
1
 atm) / H
+
 (1M) / H
2
 (P
2
 atm) / Pt
E = 
2
0591 . 0
 log ?
?
?
?
?
?
?
?
2
1
P
P
DIFFERENT TYPES OF ELECTRODES :
1. Metal-Metal ion Electrode M(s)/M
n+
 . M
n+
 + ne
?
 ?? ? M(s)
E = Eº + 
n
0591 . 0
 log[M
n+
]
2. Gas-ion Electrode Pt /H
2
(Patm) /H
+
 (XM)
as a reduction electrode
H
+
(aq) + e
?
 ?? ?
2
1
H
2
 (Patm)
E = Eº ? 0.0591 log 
] H [
P 2
1
H
2
?
Page 3


  
  
     
 
      
   
     
              
       
  
   
 
 
   
         
            
ELECTROCHEMISTRY
ELECTRODE POTENTIAL
For any electrode ? oxidiation potential = ? Reduction potential
E
cell
 = R.P of cathode ? R.P of anode
E
cell
 = R.P. of cathode + O.P of anode
E
cell
 is always a +ve quantity & Anode will be electrode of low R.P
Eº
Cell
 = SRP of cathode ? SRP of anode.
? Greater the SRP value greater will be oxidising power.
GIBBS FREE ENERGY CHANGE :
?G = ? nFE
cell
?Gº = ? nFEº
cell
NERNST EQUATION : (Effect of concentration and temp on emf of cell)
?G = ?Gº + RT ?nQ (where Q is raection quotient)
?Gº = ? RT ?n K
eq
E
cell
 = Eº
cell
 ? 
nF
RT
 ?n Q
E
cell
 = Eº
cell
 ? Q log
nF
RT 303 . 2
  
E
cell
 = Eº
cell
 ? 
n
0591 . 0
 log Q [At 298 K]
At chemical equilibrium
?G = 0 ; E
cell
 = 0.
? log K
eq
 = 
0591 . 0
E n
o
cell
.
Eº
cell
 =
n
0591 . 0
 log K
eq
For an electrode M(s)/M
n+
.
nF
RT 303 . 2
º E E
M / M M / M
n n ? ? ? ? log 
] M [
1
n?
.
CONCENTRATION CELL :
A cell in which both the electrods are made up of same material.
For all concentration cell Eº
cell
 = 0.
(a) Electrolyte Concentration Cell :
eg. Zn(s) / Zn
2+
 (c
1
) || Zn
2+
(c
2
) / Zn(s)
E = 
2
0591 . 0
 log 
1
2
C
C
(b) Electrode Concentration Cell :
eg. Pt, H
2
(P
1
 atm) / H
+
 (1M) / H
2
 (P
2
 atm) / Pt
E = 
2
0591 . 0
 log ?
?
?
?
?
?
?
?
2
1
P
P
DIFFERENT TYPES OF ELECTRODES :
1. Metal-Metal ion Electrode M(s)/M
n+
 . M
n+
 + ne
?
 ?? ? M(s)
E = Eº + 
n
0591 . 0
 log[M
n+
]
2. Gas-ion Electrode Pt /H
2
(Patm) /H
+
 (XM)
as a reduction electrode
H
+
(aq) + e
?
 ?? ?
2
1
H
2
 (Patm)
E = Eº ? 0.0591 log 
] H [
P 2
1
H
2
?
  
3. Oxidation-reduction Electrode Pt / Fe
2+
, Fe
3+
as a reduction electrode Fe
3+
 + e
?
 ?? ? Fe
2+
E = Eº ? 0.0591 log 
] Fe [
] Fe [
3
2
?
?
4. Metal-Metal insoluble salt Electrode eg. Ag/AgCl, Cl
?
as a reduction electrode  AgCl(s) + e
?
 ?? ? Ag(s) + Cl
?
Ag / AgCl / Cl
E ?
 = 
Ag / AgCl
0
/ Cl
E ?
 ? 0.0591 log [Cl
?
].
ELECTROLYSIS :
(a) K
+
, Ca
+2
, Na
+
, Mg
+2
, Al
+3
, Zn
+2
, Fe
+2
, H
+
, Cu
+2
, Ag
+
, Au
+3
.
 Increasing order of deposition.
(b) Similarly the anion which is strogner reducing agent(low value of SRP)
is liberated first at the anode.
diposition of order g sin Increa
, Br , Cl , OH , NO , SO
? ? ? ?
3
? 2
4
? ? ? ? ? ? ? ? ? ? ? ?
?
I
FARADAY?S LAW OF ELECTROLYSIS :
First Law :
w = zq w = Z it     Z = Electrochemical equivalent of substance
Second Law :
W ? E
E
W
 = constant
..........
E
W
E
W
2
2
1
1
? ?
96500
factor efficiency current t i
E
W ? ?
?
.
Current efficiency = 
100
produced deposited/  mass  l Theoritica
produced deposited/  mass  actual
?
CONDITION FOR SIMULTANEOUS DEPOSITION OF Cu & Fe AT CATHODE
Cu / Cu
2 º E ?
2
0591 . 0
? log 
? 2
Cu
1
 = 
Fe / Fe
2 º E ? ? 
2
0591 . 0
 log 
? 2
Fe
1
Condition for the simultaneous deposition of Cu & Fe on cathode.
CONDUCTANCE :
? Conductance = 
ce tan sis Re
1
Page 4


  
  
     
 
      
   
     
              
       
  
   
 
 
   
         
            
ELECTROCHEMISTRY
ELECTRODE POTENTIAL
For any electrode ? oxidiation potential = ? Reduction potential
E
cell
 = R.P of cathode ? R.P of anode
E
cell
 = R.P. of cathode + O.P of anode
E
cell
 is always a +ve quantity & Anode will be electrode of low R.P
Eº
Cell
 = SRP of cathode ? SRP of anode.
? Greater the SRP value greater will be oxidising power.
GIBBS FREE ENERGY CHANGE :
?G = ? nFE
cell
?Gº = ? nFEº
cell
NERNST EQUATION : (Effect of concentration and temp on emf of cell)
?G = ?Gº + RT ?nQ (where Q is raection quotient)
?Gº = ? RT ?n K
eq
E
cell
 = Eº
cell
 ? 
nF
RT
 ?n Q
E
cell
 = Eº
cell
 ? Q log
nF
RT 303 . 2
  
E
cell
 = Eº
cell
 ? 
n
0591 . 0
 log Q [At 298 K]
At chemical equilibrium
?G = 0 ; E
cell
 = 0.
? log K
eq
 = 
0591 . 0
E n
o
cell
.
Eº
cell
 =
n
0591 . 0
 log K
eq
For an electrode M(s)/M
n+
.
nF
RT 303 . 2
º E E
M / M M / M
n n ? ? ? ? log 
] M [
1
n?
.
CONCENTRATION CELL :
A cell in which both the electrods are made up of same material.
For all concentration cell Eº
cell
 = 0.
(a) Electrolyte Concentration Cell :
eg. Zn(s) / Zn
2+
 (c
1
) || Zn
2+
(c
2
) / Zn(s)
E = 
2
0591 . 0
 log 
1
2
C
C
(b) Electrode Concentration Cell :
eg. Pt, H
2
(P
1
 atm) / H
+
 (1M) / H
2
 (P
2
 atm) / Pt
E = 
2
0591 . 0
 log ?
?
?
?
?
?
?
?
2
1
P
P
DIFFERENT TYPES OF ELECTRODES :
1. Metal-Metal ion Electrode M(s)/M
n+
 . M
n+
 + ne
?
 ?? ? M(s)
E = Eº + 
n
0591 . 0
 log[M
n+
]
2. Gas-ion Electrode Pt /H
2
(Patm) /H
+
 (XM)
as a reduction electrode
H
+
(aq) + e
?
 ?? ?
2
1
H
2
 (Patm)
E = Eº ? 0.0591 log 
] H [
P 2
1
H
2
?
  
3. Oxidation-reduction Electrode Pt / Fe
2+
, Fe
3+
as a reduction electrode Fe
3+
 + e
?
 ?? ? Fe
2+
E = Eº ? 0.0591 log 
] Fe [
] Fe [
3
2
?
?
4. Metal-Metal insoluble salt Electrode eg. Ag/AgCl, Cl
?
as a reduction electrode  AgCl(s) + e
?
 ?? ? Ag(s) + Cl
?
Ag / AgCl / Cl
E ?
 = 
Ag / AgCl
0
/ Cl
E ?
 ? 0.0591 log [Cl
?
].
ELECTROLYSIS :
(a) K
+
, Ca
+2
, Na
+
, Mg
+2
, Al
+3
, Zn
+2
, Fe
+2
, H
+
, Cu
+2
, Ag
+
, Au
+3
.
 Increasing order of deposition.
(b) Similarly the anion which is strogner reducing agent(low value of SRP)
is liberated first at the anode.
diposition of order g sin Increa
, Br , Cl , OH , NO , SO
? ? ? ?
3
? 2
4
? ? ? ? ? ? ? ? ? ? ? ?
?
I
FARADAY?S LAW OF ELECTROLYSIS :
First Law :
w = zq w = Z it     Z = Electrochemical equivalent of substance
Second Law :
W ? E
E
W
 = constant
..........
E
W
E
W
2
2
1
1
? ?
96500
factor efficiency current t i
E
W ? ?
?
.
Current efficiency = 
100
produced deposited/  mass  l Theoritica
produced deposited/  mass  actual
?
CONDITION FOR SIMULTANEOUS DEPOSITION OF Cu & Fe AT CATHODE
Cu / Cu
2 º E ?
2
0591 . 0
? log 
? 2
Cu
1
 = 
Fe / Fe
2 º E ? ? 
2
0591 . 0
 log 
? 2
Fe
1
Condition for the simultaneous deposition of Cu & Fe on cathode.
CONDUCTANCE :
? Conductance = 
ce tan sis Re
1
  
? Specific conductance or conductivity :
(Reciprocal of specific resistance) K = 
?
1
K = specific conductance
? Equivalent conductance :
Normality
1000 K
E
?
? ?
unit : -ohm
?1
 cm
2
 eq
?1
? Molar conductance :
Molarity
1000 K
m
?
? ?
unit : -ohm
?1
 cm
2
 mole
?1
specific conductance = conductance × 
a
?
KOHLRAUSCH?S LAW :
Variation of ?
eq
 / ?
M
 of a solution with concentration :
(i) Strong electrolyte
?
M
c
 = 
?
?
M
 ? b
c
(ii) Weak electrolytes : ?
?
 = n
+
 ?
?
??
+ n
?
??
?
?
where ? is the molar conductivity
n
+
 = No of cations obtained after dissociation per formula unit
n
?
 = No of anions obtained after dissociation per formula unit
APPLICATION OF KOHLRAUSCH LAW :
1. Calculation of ?
0
M
 of weak electrolytes :
?
0
M
 
(CH3COOHl)
 = ?
0
M(CH3COONa)
 + ?
0
M(HCl) 
? ?
0
M(NaCl)
2. To calculate degree of diossociation of a week electrolyte
? = 
0
m
c
m
?
?
; K
eq
 = 
) 1 (
c
2
? ?
?
3. Solubility (S) of sparingly soluble salt & their K
sp
?
M
c
  = ?
M
?
   =   ? × 
ility lub so
1000
K
sp
 = S
2
.
Transport Number :
t
c
 = ?
?
?
?
?
?
? ? ?
?
a c
c
 , t
a
  = ?
?
?
?
?
?
? ? ?
?
c a
a
.
Where t
c
 = Transport Number of cation & t
a
 = Transport Number of
anion
Read More
79 docs

Top Courses for JEE

79 docs
Download as PDF
Explore Courses for JEE exam

Top Courses for JEE

Signup for Free!
Signup to see your scores go up within 7 days! Learn & Practice with 1000+ FREE Notes, Videos & Tests.
10M+ students study on EduRev
Related Searches

Viva Questions

,

Semester Notes

,

Free

,

Sample Paper

,

Important Electrochemistry Formulas for JEE and NEET

,

Previous Year Questions with Solutions

,

Summary

,

study material

,

Important questions

,

mock tests for examination

,

ppt

,

shortcuts and tricks

,

pdf

,

video lectures

,

Exam

,

Objective type Questions

,

Important Electrochemistry Formulas for JEE and NEET

,

MCQs

,

past year papers

,

practice quizzes

,

Extra Questions

,

Important Electrochemistry Formulas for JEE and NEET

;