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Silver chromate is sparingly soluble in aqueous solutions. The Kşp of Ag2CrO4 is 1.12 x 10-12 M3.

Silver chromate is sparingly soluble in aqueous solutions. The Kşp of Ag,CrO4 is 1.12 x 10-12 M3. What is the solubility (in

Silver chromate is sparingly soluble in aqueous solutions. The Kşp of Ag2CrO4 is 1.12 x 10-12 M3

What is the solubility (in moles per liter) of silver chromate in a 1.00 M potassium chromate aqueous solution? 

What is the solubility (in moles per liter) of silver chromate in a 1.00 M silver nitrate aqueous solution?

 What is the solubility (in moles per liter) of silver chromate in pure water? 

Solutions

Expert Solution

1)

K2CrO4 here is Strong electrolyte

It will dissociate completely to give [CrO42-] = 1.0 M

At equilibrium:

Ag2CrO4 <----> 2 Ag+ + CrO42-

   2s 1 + s

Ksp = [Ag+]^2[CrO42-]

1.12*10^-12=(2s)^2*(1+ s)

Since Ksp is small, s can be ignored as compared to 1

Above expression thus becomes:

1.12*10^-12=(2s)^2*(1)

1.12*10^-12=4*S^2

s = 5.292*10^-7 M

Answer: 5.29*10^-7 M

2)

AgNO3 here is Strong electrolyte

It will dissociate completely to give [Ag+] = 1.0 M

At equilibrium:

Ag2CrO4 <----> 2 Ag+ + CrO42-

   1 +2s s

Ksp = [Ag+]^2[CrO42-]

1.12*10^-12=(1 + 2 s)^2*(s)

Since Ksp is small, s can be ignored as compared to 1

Above expression thus becomes:

1.12*10^-12=(1)^2*(s)

1.12*10^-12= 1 * 1(s)^1

s = 1.12*10^-12 M

Answer: 1.12*10^-12 M

3)

At equilibrium:

Ag2CrO4 <----> 2 Ag+ + CrO42-

   2s s

Ksp = [Ag+]^2[CrO42-]

1.12*10^-12=(2s)^2*(s)

1.12*10^-12= 4(s)^3

s = 6.542*10^-5 M

Answer: 6.54*10^-5 M

queen_honey_blossom answered 2 years ago
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