Table shows solubility equilibriums of selected substances, mainly sparingly soluble salts and hydroxides.

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salts#

Substance	Molecular formula	Solubility equilibrium
silver acetate	AgCH₃COO	0.00194
silver arsenate	Ag₃AsO₄	1.03×10^-22
silver bromate	AgBrO₃	0.0000538
silver bromide	AgBr	5.35×10^-13
silver carbonate	Ag₂CO₃	8.46×10^-12
silver chloride	AgCl	1.77×10^-10
silver chromate	Ag₂CrO₄	1.12×10^-12
silver cyanide	AgCN	5.97×10^-17
Silver iodate (V)	AgIO₃	3.17×10^-8
silver iodide	AgI	8.52×10^-17
silver oxalate	Ag₂C₂O₄	5.4×10^-12
silver phosphate	Ag₃PO₄	8.89×10^-17
silver sulfide	Ag₂S	5.01×10^-50
silver (I) sulfate (VI)	Ag₂SO₄	0.000012
silver (I) sulfate (IV)	Ag₂SO₃	0.00015
silver thiocyanate	AgSCN	1.03×10^-12
aluminum phosphate	AlPO₄	9.84×10^-21
barium bromate	Ba(BrO₃)₂	0.000243
barium carbonate	BaCO₃	1×10^-8
barium chromate (VI)	BaCrO₄	1.17×10^-10
barium fluoride	BaF₂	1.84×10^-7
barium iodate	Ba(IO₃)₂	4.01×10^-9
barium sulfate (VI)	BaSO₄	1.08×10^-10
barium sulfate (IV)	BaSO₃	5×10^-10
barium selenate (VI)	BaSeO₄	3.4×10^-8
bismuth (III) jodide	BiI₃	7.71×10^-19
bismuth (III) arsenate	BiAsO₄	4.43×10^-10
calcium carbonate (calcite)	CaCO₃	3.36×10^-9
calcium fluoride	CaF₂	3.45×10^-11
calcium phosphate	Ca₃(PO₄)₂	2.07×10^-33
calcium sulphate (VI)	CaSO₄	0.0000493
calcium suplhate (VI) dihydrate	CaSO₄ · 2H₂O	0.0000314
cadmium carbonate	CdCO₃	1×10^-12
cadmium arsenate	Cd₃(AsO₄)₂	2.2×10^-33
cadmium fluoride	CdF₂	0.00644
cadmium phosphate	Cd₃(PO₄)₂	2.53×10^-33
cadmium sulfide	CdS	2.51×10^-26
cobalt (II) phosphate	Co₃(PO₄)₂	2.05×10^-35
yttrium (III) carbonate	Y₂(CO₃)₃	1.03×10^-31
caesium perchlorate	CsClO₄	0.00395
caesium jodate	CsIO₄	0.00000516
copper (I) bromide	CuBr	6.27×10^-9
copper (I) jodide	CuI	1.27×10^-12
copper (II) sulfide	CuS	3.98×10^-35
copper (II) phosphate	Cu₃(PO₄)₂	1.4×10^-37
iron (II) carbonate	FeCO₃	3.13×10^-11
iron (II) carbonate	FeS	2.51×10^-18
iron (III) phosphate dihydrate	FePO₄ · 2H₂O	9.91×10^-16
mercury (I) fluoride	Hg₂F₂	0.0000031
mercury (I) bromide	Hg₂Br₂	6.4×10^-23
mercury (I) chloride	Hg₂Cl₂	1.43×10^-18
mercury (I) jodide	Hg₂I₂	5.2×10^-29
mercury (I) sulfate (VI)	Hg₂SO₄	6.5×10^-7
mercury (II) bromide	HgBr₂	6.2×10^-20
mercury (II) jodide	HgI₂	2.9×10^-29
mercury (II) sulfide	HgS	7.94×10^-53
potassium perchlorate	KClO₄	0.0105
potassium periodate	KIO₄	0.000371
lanthanum jodate	La(IO₃)₃	7.5×10^-12
lithium phosphate	Li₃PO₄	2.37×10^-11
lithium carbonate	Li₂CO₃	0.000815
magnesium carbonate	MgCO₃	0.00000682
magnesium fluoride	MgF₂	5.16×10^-11
magnesium phosphate	Mg₃(PO₄)₂	1.04×10^-24
manganese (II) carbonate	MnCO₃	2.24×10^-11
manganese (II) oxalate dihydrate	MnC₂O₄ · 2H₂O	1.7×10^-7
nickel phosphate	Ni₃(PO₄)₂	4.74×10^-32
nickel carbonate	NiCO₃	1.42×10^-7
lead bromide (II)	PbBr₂	0.0000066
lead chloride (II)	PbCl₂	0.000017
lead (II) iodide	PbI₂	9.8×10^-9
lead (II) iodide	PbF₂	3.3×10^-8
lead (II) carbonate	PbCO₃	7.4×10^-14
lead (II) sulfate (VI)	PbSO₄	2.53×10^-8
lead (II) sulfide	PbS	1.26×10^-28
radium sulfate (VI)	RaSO₄	3.66×10^-11
rubidium perchlorate	RbClO₄	0.003
scandium (III) fluoride	ScF₃	5.81×10^-24
tin (II) sulfide	SnS	2.51×10^-24
thallium (I) chromate	Tl₂CrO₄	8.67×10^-13
thallium (I) bromide	TlBr	0.00000371
yttrium (III) fluoride	YF₃	8.62×10^-21
zinc carbonate	ZnCO₃	1.46×10^-10
zinc arsenate	Zn₃(AsO₄)₂	2.8×10^-28
zinc selenide	ZnSe	3.6×10^-26
zinc sulfide	ZnS	3.98×10^-25
zinc jodate dihydrate	Zn(IO₃)₂ · 2H₂O	0.0000041
zinc oxalate dihydrate	ZnC₂O₄ · 2H₂O	1.38×10^-9

hydroxides#

Substance	Molecular formula	Solubility equilibrium
yttrium (III) hydroxide	Y(OH)₃	1×10^-22
zinc hydroxide	Zn(OH)₂	3×10^-17
thallium (III) hydroxide	Tl(OH)₃	1.68×10^-44
scandium hydroxide	Sc(OH)₃	2.22×10^-31
tin (II) hydroxide	Sn(OH)₂	5.45×10^-27
lead (II) hydroxide	Pb(OH)₂	1.43×10^-20
nickel hydroxide	Ni(OH)₂	5.48×10^-16
magnesium hydroxide	Mg(OH)₂	5.61×10^-12
copper (II) hydroxide	Cu(OH)₂	1.99×10^-20
cobalt (II) hydroxide	Co(OH)₂	5.92×10^-15
cadmium (II) hydroxide	Cd(OH)₂	7.2×10^-15
calcium hydroxide	Ca(OH)₂	0.00000502
beryllium hydroxide	Be(OH)₂	6.92×10^-22
barium hydroxide octahydrate	Ba(OH)₂ · 8H₂O	0.000255
iron (II) hydroxide	Fe(OH)₂	4.87×10^-17
iron (III) hydroxide	Fe(OH)₃	2.79×10^-39
aluminium hydroxide	Al(OH)₃	5×10^-33
silver (I) hydroxide	AgOH	1.5×10^-8

Some facts#

If the substance $M_mX_x$ dissociates in the solution according to the reaction:

$M_mX_x \iff m M^{x+} + x X^{m-}$
then its solubility equilibrium is defined as below:

$K_{sp} = \left[\mathrm M^{x+}\right]^m \left[\mathrm X^{m-}\right]^x$

where:
- $K_{sp}$ - solubility quilibrium of substance,
- $\left[\mathrm M^{x+}\right]^m$ - molar concentration of $M^{x+}$ ions in saturated solution,
- $\left[\mathrm X^{m-}\right]^x$ - molar concentration of $X^{m+}$ ions in saturated solution.
The solubility equilibrium is measured for saturated solution.
The solubility equilibrium is specific for a given substance.
Alternative name for solubility equilibrium is solubility product constant.
The solubility equilibrium is varies depending on the temperature. Chemical tables most often give values for 298K (25°C).
If product of ion concentrations in real solution exceeds the value of solubility equilibrium then it forms the precipitate.
If we know the solubility equilibrium and dissociation reaction, then we can calculate molar solubility of substance:

$S = \sqrt[x+m]{\dfrac{K_{sp}}{x^{x} m^{m}}}$
where:
- $S$ - molar solubility of substance $M_mX_x$ ,
- $K_{sp}$ - solubility equilibrium,
- $x$ - stoichiometric coefficient determined by dissociation reaction (see above),
- $m$ - stoichiometric coefficient determined by dissociation reaction (see above).

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