Chemistry
Periodic Table

# What is the Ksp for NiOH2?

###### Wiki User

for Ni(OH)2, Ksp=6.0*10^(-16)

๐
0
๐คจ
0
๐ฎ
0
๐
0

## Related Questions

No. Ksp can be used for metals as well, such as lead (Pb). The Ksp for Pb is often very small, but increases with increasing temperature.

The Ksp for BaS04, which is barium sulfate, is 1.1 x 10^-10. Ksp is the solubility product. It is the product of the solubility of the ions in moles per liter.

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;;

Ion product &lt; Ksp Unsaturated solution Ion product = Ksp Saturated solution Ion product &gt; Ksp Supersaturated solution

KSP means Kulang Sa Pansin that means when your talking to someone but she/he is not talking to you

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.

If the ion product concentration is greater than the Ksp value a precipitate will form. If it equals the Ksp the solution is saturated and no precipitate forms.

the higher the Ksp value the more soluble a compound is.

dicuss the significance of the Ksp of AgCl on the accuracy of the mohr's test

CaF2 Ca(2+) +2F(-) Ksp=(x)(4x^2) where x=solubility Therefore, Ksp=3.7 x 10^-11

Solubility product constant, Ksp, uses concentrations of soluble (dissolved) substances. A solid is not dissolved.

Ksp or solubility product is meaured for aqueous solutions of salts, for acids is Ka , for bases is Kb and for water is Kw.

AlCl3 is soluble in water so to find the solubility of Alcl3 ( not KSp) ,the among of this compound dissolving in definite volume of water should be given.

ksp= [Ca2+][Cl-]^2 = (x)((2x)^2) Ksp =4x^3 where x= the amount soluble of one mole of product

Since the Ksp of AgBr is less than the Ksp of AgNO3, you can predict that the AgBr will precipitate out of solution and leave NO3- in the solution

Ksp is only for ionic compounds that can produce a precipitate, thus acids and base can not produce a ppt when mixed together. acids and bases are always soluble.

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.