This solution is superasaturated.
When there is an excess of solvent in a solution, causing it to become unstable and unable to maintain the solute in a dissolved state, it is referred to as supersaturation. This can lead to precipitation or crystallization of the solute from the solution.
This is a concentrated or a saturated solution.
supersaturated
A solution that contains too much solute is referred to as a "supersaturated solution." In a supersaturated solution, the concentration of solute exceeds its solubility limit at a given temperature, often leading to the potential for crystallization if disturbed. This condition is typically achieved by dissolving more solute than can normally be held at a specific temperature and then carefully cooling or manipulating the solution.
The number of moles of solute will not change. Too, the molarity of the solution decreases.
When you put too much solute in a solution, it can exceed its solubility limit and the excess solute may not fully dissolve. This can result in a saturated solution, where no more solute can dissolve. In extreme cases, the excess solute may precipitate out of the solution.
When there is an excess of solvent in a solution, causing it to become unstable and unable to maintain the solute in a dissolved state, it is referred to as supersaturation. This can lead to precipitation or crystallization of the solute from the solution.
This is a concentrated or a saturated solution.
supersaturated
An oversaturated solution describes a solution that contains more solute than can normally dissolve in the solvent at a given temperature. This can lead to the precipitation of excess solute as solid crystals.
When too much solute is added to a solvent, the solution may become saturated, meaning the solvent can no longer dissolve any more solute. This can result in the formation of a precipitate or un-dissolved solute at the bottom of the container. The excess solute may also remain undissolved or form a separate layer on top of the solvent.
The number of moles of solute will not change. Too, the molarity of the solution decreases.
The solute in a solution is typically dissolved at the molecular level, making it too small to be seen with the naked eye.
A solution concentration maybe expressed as g/liter but it is much more common and scientifically desired to express the concentration as a molarity or normality. So 36.5 g per liter of HCl would be 1 molar or 1 normal.
A saturated solution is one where the maximum amount of solute is dissolved and no more can be dissoved at all.It will look like any other soution of that solute. If the solute is uncoloured then the solution will be so too; if the solute is coloured, then that colour will be quite (comparatively) strong.
A saturated solution contains a liquid (solvent) and a solid (solute). In a solution that dissolves, the solute dissolves in the solvent. An example of this is table salt (NaCl) in Water (H20). When you stir some salt into water, it dissolves. However, when there is too much salt in proportion to water, there are leftovers at the bottom. This indicates that the solution is saturated. Put simply, It means that there is not enough solvent to dissolve the solute. This happens because of dipole forces of the solvent attracting to ends of the solute. In a salt water solution, there needs to be about 6 water molecules to every 1 salt molecule. When there is too much of the salt, the solid falls to the bottom (precipitate). An Unsaturated solution is simply one that has not passed this critical ratio of molecules.
dilute .......................................... If you are using A+ ,, The answer is Concentrated...