Ksp= [Products]^mole ratio
so
Ksp=[Ag+][NO3]
Since you didnt provide any numerical values, that's as far as you can go. You can look for known Ksp values at certain temperatures in some AP Chemistry books or online.
The KSP for KNO3 refers to the equilibrium constant (KSP) which is used for preparing gunpowder (KNO3). It is needed to change the acqueous solution which can be done with a boiling method. This is needed for stability.
it's soluble in water, so ksp is reaalllyy small--i wont be much of a help if you were looking for ksp to prove what i said;;
Solubility Product Constant, Ksp is the equilibrium constant for a solid substance dissolving in an aqueous solution. Molar solubility is the number of moles of a substance (the solute) that can be dissolved per liter.MnAm⇔nMm++mAn-Ksp = [Mm+]n[An-]m
Solubility product constant, Ksp, uses concentrations of soluble (dissolved) substances. A solid is not dissolved.
NaCl dissolve so easily that it is not even given a solubility product constant, as this value ( also known as the Ksp) tells us the solubility for compounds that don't readily dissolve.
CaF2 Ca(2+) +2F(-) Ksp=(x)(4x^2) where x=solubility Therefore, Ksp=3.7 x 10^-11
To determine the stability of an ion compound in water: look up the product solubility constant (Ksp) for the compound to be dissolved; write the chemical equation and modify the Ksp equation.
Ksp
It gives us an indication of its solubility in water. A large solubility constant (Ksp) means it is easily water-soluble. A small Ksp means it is generally insoluble in water.
Solubility Product Constant, Ksp is the equilibrium constant for a solid substance dissolving in an aqueous solution. Molar solubility is the number of moles of a substance (the solute) that can be dissolved per liter.MnAm⇔nMm++mAn-Ksp = [Mm+]n[An-]m
Solubility product constant, Ksp, uses concentrations of soluble (dissolved) substances. A solid is not dissolved.
due to the solubility product constant(ksp)
NaCl dissolve so easily that it is not even given a solubility product constant, as this value ( also known as the Ksp) tells us the solubility for compounds that don't readily dissolve.
CaF2 Ca(2+) +2F(-) Ksp=(x)(4x^2) where x=solubility Therefore, Ksp=3.7 x 10^-11
To determine the stability of an ion compound in water: look up the product solubility constant (Ksp) for the compound to be dissolved; write the chemical equation and modify the Ksp equation.
You need the Ksp of copper sulphide. From that you can use the equation for solubility product - Ksp = [Cu2+].[S-] where the Cu2+ term becomes 25M.
ksp= [Ca2+][Cl-]^2 = (x)((2x)^2) Ksp =4x^3 where x= the amount soluble of one mole of product
Equilibrium in the case of a generally insoluble salt takes the form of "Ksp," which means solubility product constant. Ksp = [Ca+2]3[PO4-3]2
Ksp or solubility product is meaured for aqueous solutions of salts, for acids is Ka , for bases is Kb and for water is Kw.