The evidence that a solution is saturated, is that if you add more solute, it doesn't dissolve.
The presence of undissolved solute at the bottom of a container, the absence of visible changes in the solution after more solute is added, and reaching a point where the solute starts to precipitate out of the solution are all evidence that a solution is saturated.
If more solute is added to the solution and the solute remains undissolved, then you know that solution is saturated.
The evidence that a solution is saturated, is that if you add more solute, it doesn't dissolve.
A saturated solution.
A saturated solution.
You have to Heat it!
A graph can illustrate what solution is saturated and unsaturated. If the point is on the line, then the solution is saturated, while if is below the line, the solution is unsaturated.
The evidence that the equilibrium shifted when a saturated potassium nitrate solution was cooled is the precipitation of potassium nitrate crystals. Cooling the solution causes a decrease in solubility, leading to excess solute (potassium nitrate) to precipitate out of the solution. This indicates that the equilibrium has shifted towards the solid phase as a result of the change in temperature.
A saturated solution is one that can dissolve no more of the solute at a given temperature and pressure. This means that the maximum amount of solute has been dissolved in the solvent, and any additional solute will not dissolve and will instead form a precipitate.
A Saturated Solution can no longer hold any more solute in solution.
A saturated solution is made when you have added so much solute that no more dissolves. The amount of solute needed to make a saturated solution will change with the temperature of the solution.
The solution is saturated when no more solute dissolves in the solvent.