Since Lead (II) Chloride has the formula PbCl2, the equilibrium equation for its dissolution is:
PbCl2 <=> Pb+2+2Cl- so the equilibrium-constant expression is Ksp= [Pb+2][Cl-]
due to the solubility product constant(ksp)
ksp= [Ca2+][Cl-]^2 = (x)((2x)^2) Ksp =4x^3 where x= the amount soluble of one mole of product
The solubility product of Lead (II) sulphate , PbSO4 is very low and it is almost insoluble in water.
Ks = [Pb2+]*[I-]2 = 1.4*10-8 , at equilibrium, in saturated solution that is.
silver chloride is soluble in ammonia, lead chloride is only slightly soluble in ammonia
White precipitates of Lead chloride (PbCl2) are formed because the solubility product (KSP) of Lead chloride is very low.
Lead Chloride
due to the solubility product constant(ksp)
Solubility increases with temperature.
A strong relation is between the solubility and the temperature for all substances. For sodium chloride, at the room temperature, the solubility in water is approx. 36 g NaCl/100 g water.
ksp= [Ca2+][Cl-]^2 = (x)((2x)^2) Ksp =4x^3 where x= the amount soluble of one mole of product
Equilibrium is pushed toward the left in the equation. PbCl2(s) <=> Pb^2+(aq)+2Cl^-(aq).
It is soluble in water. But it is less in this temperature.
No, sodium chloride is not soluble in cyclohexane.
Solubility: the total amount of a solute dissolved in a solvent, at a given temperature, pressure and at saturation.Ex.: Sodium chloride - 359 g/L at room temperature.Solubility product: the concentration of the first ion multiplied by the concentration of the second ion, released by the dissociation of an ionic compound, at equilibrium. The appreciation is made with the solubility product constant:Ksp = [A].[B]Ex.: Lithium fluorideKsp = [Li+].[F-] = 3,8.10-3
The solubility of sodium chloride in methanol is 14 g/kg at 25 0C.
The solubility product of Lead (II) sulphate , PbSO4 is very low and it is almost insoluble in water.