The sp cond of a saturated solution of A...

The sp cond of a saturated solution of `AgCI` at `25^(@)C` after substractin the sp conductances of conductivity of water is `2.28 xx 10^(-6) mho cm^(-1)`. Find the solubility product of `AgCI` at `25^(@)C(lambda_(AgCI)6(oo) = 138.3 mho cm^(2))`

Text Solution

Verified by Experts

The correct Answer is:

`2.70 xx 10^(-10)("mole"//"litre")^(2)`

For equilibrium,
`AgCl = Ag^(+) + Cl^(-) K_(sp)=[Ag^(+)][CL^(-)]`
If solubility of `AgCl` in water is, say, x moles/L or x.eq/L
`K_(sp) = x.x =x^(2)`
`:.` volume containing 1 eq. of `AgCl = (1000)/(x)`
`Lamda_(AgCl) = "sp. Cond." x V = 2.28 xx 10^(-6) xx(1000)/(x)`
Since `AgCl` is sparingly soluble in water,
`Lamda_(AgCl)=Lamda_(AgCl)^(@)=138.3`
`:. 2.28 xx 10^(-6) xx (1000)/(x)=138.3`
or `x =1.644 xx 10^(-5)` eq./L or mole/L
`K_(sp)=x^(2)=(1.644xx 10^(-5))^(-2)=2.70 xx 10^(-10)("mole/L")^(2)`.

Similar Questions

Explore conceptually related problems

The specific conductivity of a saturated AgCI solution if found to be 2.12 xx 10^(-6)S cm^(-1) and that for water is 6 xx 10^(-8)S cm^(-1) . The solubility of AgCI is: (lambda_(eq)^(prop) = 103 S "equiv"^(-1) cm^(2))

The conductivity of a saturated solution of Ag_(3)PO_(4) is 9 xx 10^(-6) S m^(-1) and its equivalent conductivity is 1.50 xx 10^(-4) Sm^(2) "equivalent"^(-1) . Th K_(sp) of Ag_(3)PO_(4) is:-

Calculate the dissociation constant of water at 25^(@)C from the following data. Specific conductance of H_(2)O = 5.8 xx 10^(-8) mho cm^(-1), lambda_(H^(+))^(oo) = 350.0 and lambda_(OH^(-))^(oo) = 198.0 mho cm^(2)

The specific conductance at 25^(@)C of a saturated solution of SrSO_(4) is 1.482 xx 10^(-4) ohm^(-1) cm^(-1) while that of water used is 1.5 xx 10^(-6) mho cm^(-1) . Determine at 25^(@)C the solubility in g per litre of SrSO_(4) in water. molar ionic conductance of Sr^(2+) and SO_(4)^(2-) ions at infinite are 54.46 and 79.8 ohm^(-1) cm^(2) "mole"^(-1) respectively. [Sr = 87.6 S = 32, O =16]

A big irrengular shaped vessel contained waer the sp conductance of which was 2.56 xx 10^(-5) mho cm^(-1) 500g of NaCI was then added to the water and the specific conductance after the addition of NaCI was found to be 3.10 xx 10^(-5) mho cm^(-1) . find the capacity of the vessel if it is fulfilled with water (lambda_(oo)NaCI = 149.9)

Calculate the solubiltit and solubility product of Co_(2) [Fe(CN)_(6)] is water at 25^(@)C from the following data: conductivity of a saturated solution of Co_(2)[Fe(CN)_(6)] is 2.06 xx 10^(-6) Omega^(-1) cm^(-1) and that of water used 4.1 xx 10^(-7) Omega^(-1) cm^(-1) . The ionic molar conductivites of Co^(2+) and Fe(CN)_(6)^(4-) are 86.0 Omega^(-1)cm^(-1) mol^(-1) and 44.0 Omega^(-1) cm^(-1) mol^(-1) .

The dissociation constant of n-butyric acid is 1.6 xx 10^(-5) and the molar conductivity at infinite dilution is 380 xx 10^(-4) Sm^(2) mol^(-1) . The specific conductance of the 0.01M acid solution is

Calculate K_(a) of acetic acid it its 0.05N solution has equivalent conductances of 7.36 mho cm^(2) at 25^(@)C (lambda_(CH_(3)COOH)^(oo) = 390.70)

The sp cond of a saturated solution of `AgCI` at `25^(@)C` after substractin the sp conductances of conductivity of water is `2.28 xx 10^(-6) mho cm^(-1)`. Find the solubility product of `AgCI` at `25^(@)C(lambda_(AgCI)6(oo) = 138.3 mho cm^(2))`

Text Solution

Similar Questions

Recommended Questions