Information AboutSolubility |
| CATEGORIES ABOUT SOLUBILITY | |
| chemical properties | |
| solutions | |
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A solution at Equilibrium that cannot hold any more solute is said to be Saturated . The equilibrium of a solution is mainly dependent on temperature. The maximum equilibrium amount of solute which can normally dissolve per amount of solvent is the solubility of that solute in that solvent. It is often expressed as a maximum Concentration of a saturated solution. The solubility of one substance dissolving in another is determined by the Intermolecular Forces between the solvent and solute, Temperature , the Entropy change that accompanies the solvation, the presence and amount of other substances, and sometimes pressure or Partial Pressure of a solute gas. Solubility Constants are used to describe saturated solutions of ionic compounds of relatively low solubility. For Salt s, solubility in Aqueous solutions or the maximum amount of salt that can be dissolved is the solubility constant. The solubility constant is a special case of an Equilibrium Constant . It describes the balance between dissolved salt and undissolved salt. The solubility constant is also "applicable" (i. e. useful) to Precipitation , the reverse of the dissolving reaction. As with other equilibrium constants, Temperature can affect the numerical value of solubility constant. While solutions are typically thought of as solids being mixed into liquids, any two states of matter can be mixed and be called a solution. Carbonated Water is a solution of a gas in a liquid, Hydrogen (a gas) can dissolve in Palladium (a solid), and Stainless Steel is a solution of a solid in a solid (called an Alloy ). Phthalates dissolve in plastics and act as Plasticizer . Solutions may, under special conditions, hold more solute than the solvent can normally dissolve. This is called Supersaturation . Solvent s are normally characterized as Polar or Nonpolar . The general rule of thumb is "Like Dissolves Like." This means that polar solvents will dissolve ionic compounds and covalent compounds which ionize, while nonpolar solvents will dissolve nonpolar covalent compounds. For example, ordinary Table Salt , an Ionic Compound , will dissolve in Water , but not in Ethanol . Water and nonpolar solvents are immiscible; they do not form Homogeneous mixtures but separate into two distinct phases or form milky Emulsion s. SOLUBILITY OF BONDING TYPE IN WATER This table gives some indication how the Chemical Bonding type relates to solubility in water.
SOLUBILITY OF IONIC COMPOUNDS IN WATER This table presents an overview of solubility of salts in water.
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