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consider a supersaturated solid solution consisting of components a and b, where the abundant species b precipitates out to form particles of pure b. following nucleation, the particles grow to much larger sizes through diffusion. this coarsening, known as ostwald ripening, has important effects on the physical properties of alloys. assume the precipitate to consist of widely dispersed spherical particles of radius r(t) which do not interact with each other (so that you may consider one representative particle). the concentration of a at the particle surface depends on particle size according to

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With respect to factors like the system's temperature and pressure, supersaturation is a non-equilibrium physical state in which a solution contains more solute than the equilibrium solubility permits.

The amount at which a solute's concentration surpasses its solubility under specific circumstances is referred to as supersaturation.

When a solute concentration in a chemical solution surpasses the concentration allowed by its equilibrium solubility, supersaturation takes place. In order to bring a supersaturated solution to equilibrium, the excess solute must be forced to separate from the solution. Supersaturated solutions are in a metastable state.

A supersaturated solution can be produced if the volume of the solvent is reduced and the concentration of the solute is above the saturation point.

Evaporation is the process that most frequently causes the volume to decrease. Similar to this, a rise in pressure can cause a solution to become supersaturated.

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