When common sugar (Sucrose) is dissolved in water it is converted into two units ,Glucose and Fructose so you Can not get back same sugar from water.
There are a number of ways in which a gas could dissolve in a liquid. It could bind with the liquid molecules.
It means you could dissolve even more material than is already dissoved.
An unsaturated solution has excess solvent and can still dissolve more solute.A saturated solution cannot dissolve any more solute, it will simply stay separate.
It's not dense enough to dissolve in water.
The closest one I could find is 3-ethylpentane which has a boiling point of 93.5 degrees celsius.
You could crush the solid, stir the solution, and/or heat the solution.
It only dissolves royal metals.
There are a number of ways in which a gas could dissolve in a liquid. It could bind with the liquid molecules.
Increasing the temperature the solubility increase.
simply heat up the solvent (eg. water) till just below its boiling point and stir. the heating will allow more CuSO4 to dissolve as well but as the solution cools down some of the CuSO4 will come out of solution. you could also powder the CuSO4 to increase the surface area. This allows more contact between the solvent and the CuSO4, which increases the disolving speed.
You can add more salt by heating the solution because a higher temperature increases the solubility.
Assuming that all of the sugar that could be dissolved, is dissolved at that temperature and pressure, it would be a super saturated solution.
It means you could dissolve even more material than is already dissoved.
This would be a mixture, because you could easily separate the water and sugar again by boiling the water.
An unsaturated solution has excess solvent and can still dissolve more solute.A saturated solution cannot dissolve any more solute, it will simply stay separate.
The maximum amount of solute is dissolved in it-apex
The answer depends on the temperature of both water. But salt would dissolve faster in boiling water than it could in carbonated water at room temperature.