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No, the solution remains saturated. It is just that as the temperatures decreases so does the carrying capacity of the solvent.
In rocks large crystals form from very SLOW cooling.
I suppose that this temperature is approx. 5 oC.
When there is no more solute can be dissolved in a solution, a saturated solution is obtained. When a hot saturation solution is cooled down the solute will come out in solid form as a crystal. Small crystals will be found in fast cooling. If we hang a small crystal in a h ot saturated solution it will grow bigger when it cools slowly. When there is no more solute can be dissolved in a solution, a saturated solution is obtained. When a hot saturation solution is cooled down the solute will come out in solid form as a crystal. Small crystals will be found in fast cooling. If we hang a small crystal in a h ot saturated solution it will grow bigger when it cools slowly.
If a substance is cooled and solidified rapidly, generally amorphous material is obtained instead of crystals. In order to obtain good quality crystals, if is better that the substance solidifies slowly
No, the solution remains saturated. It is just that as the temperatures decreases so does the carrying capacity of the solvent.
A cooled saturated solution of copper chloride will precipitate crystals of copper chloride.
The solution forms bigger crystals that have pointed ends.
In rocks large crystals form from very SLOW cooling.
The size of the crystals. Large crystals mean the magma cooled slowly, small crystals are a sign that the magma was cooled quickly.
Because crystals in granite had more time to form as the magma cooled slowly. Crystals that form on the surface are smaller because they cooled really quickly.
I suppose that this temperature is approx. 5 oC.
a saturated solution will form crystals
Assuming that the crystals have already been formed, as suggested in the question, one could simply filter off the crystals with filter paper, resulting in negligible loss of water. Had the crystals not been formed, the solution could be cooled to create them, and then they could be extracted using the above method, or, alternatively, the water could be evaporated away, and the vapour collected as it does so, allowing for it to be cooled elsewhere, and resulting in little loss of water or crystals.
On cooling saturated solutions, the excess solute precipitates as a solid. This can take the form of a powder or a crystal structure.
it cooled quick
It cooled slowly, forming larger crystals.