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Conductance of electrolytic solution
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Difference between electronic & electrolytic conductors
(3) Conduction increases with increase in temperature
(3) Conduction decreases with increase in temperature
(2) Flow of electricity is due to the movement of ions
(2) Conduction is due to the flow of electron
(1)Flow of electricity takes place by the decomposition of the substance.
(1) Flow of electricity take place without the decomposition of substance.
Electrolytic conductors Electronic conductors
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Resistance refers to the opposition to the flow of current.
For a conductor of uniform cross section(a) and length(l); Resistance R,
a
l
R!l and R! la
"R = #la
Where is called resistivity or specific resistance.
ρ
Resistance
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Conductance
The reciprocal of the resistance is called conductance. It is denoted by C. C=1/R Conductors allows electric current to pass through them. Examples are metals, aqueous solution of acids, bases and salts etc.
Insulators do not allow the electric current to pass through them.
Examples are pure water, urea, sugar etc.
Unit of conductance is ohm-1 or mho or Siemen(S)
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Electrolytic Solution
The conductivity increases with the decrease of the electrodes distance
conductance
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Electrolytic Solution
The conductivity increases with the increase of the electrodes surface
conductance
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Electrolytic Solution
The conductivity increases with the increase of the analytes concentration
conductance
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Electrolytic Solution
The conductivity changes with the electrolyte nature
conductance
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Electrolytic Solution
The conductivity changes with the electrolyte nature
conductance
Electrolyte A
Electrolyte B
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Electrolytic Solution
conductance
Electrolyte A
Electrolyte B
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Specific conductance ! =1"
Specific Conductivity
! =!a"
#$%
&' x Conductance
Unit of specific conductance is ohm–1cm–1
SI Unit of specific conductance is Sm–1 where S is Siemen
aBut ρ= Rl
Ka.R
∴ =l
l/a is known as cell constant
Conductance of unit volume of cell is specific conductance.
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Equivalent Conductance
Where, κ = Specific conductivity
V = Volume of solution in cc. containing one gram equivalent of the electrolyte.
It is the conductance of one gram equivalent of the electrolyte dissolved in V cc of the solution.
Equivalent conductance is represented by
λ
Mathematically, ! =k "V
! = k " 1000Normality
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Effect of Dilution on Conductivity Specific conductivity decreases on dilution. Equivalent and molar conductance both increase with dilution and reaches a maximum value. The conductance of all electrolytes increases with temperature.
concentration, (mole L )–1 1/2
CH COOH (weak electrolyte)3
KCl (strong electrolyte)
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Kohlrausch’s Law
!"= !a + ! c
Where are known as ionic conductance of anion and cation at infinite dilution respectively.
λ λa cand
“Limiting molar conductivity of an electrolyte can be represented as the sum of the individual contributions of the anion and cation of the electrolyte.”
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