Grams of solute per (over) 100 grams of solution.
Generally speaking, the more solute in the solution, the less the (remaining) solubility.
The solubility product expression for sodium phosphate (Na3PO4) is Ksp = [Na+]^3[PO4]^-3, where [Na+] and [PO4]^- are the concentrations of sodium ions and phosphate ions, respectively, in the solution.
The expression generally used is victim of persecution.
Temperature
Increasing the temperature of a solvent decreases the solubility of a gas Generally, increasing solvent temperature decreases the solubility of gases.
Generally, as temperature increases, solubility increases. There are a few cases where the opposite happens, though.
The solubility product expression for CaF2(s) is written as Ksp = [Ca2+][F-]^2, where brackets denote the concentration of each ion at equilibrium.
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.
Generally, the solubility of gasses in liquids go up as the temperature of the liquid goes down.
Yes, the solubility of NaCl can be affected by the solvent used. Different solvents can have varying effects on the solubility of a substance like NaCl.
As temperature increases, the solubility of most salts generally increases in fresh water, while the solubility of gases typically decreases. In seawater, the effect of temperature on solubility can vary due to the presence of salts and other solutes, but generally, the solubility of gases decreases with higher temperatures. Therefore, while both fresh and seawater experience changes in solubility with temperature, the specific effects can differ based on the solute involved.
The solubility product expression for silver chromate (Ag2CrO4) is Ksp = [Ag+]²[CrO4²-], where [Ag+] represents the concentration of silver ions and [CrO4²-] represents the concentration of chromate ions in the saturated solution.