Want this question answered?
solute dissolves more rapidly in hot water
Depends on what the sovlent and solute are.
When a solution has accepted as much solute as is possible at a given temperature, the solution is said to be saturated. Under certain conditions, saturated solutions can be concentrated to give supersaturated solutions. Supersaturated solutions are those which possess more of a solute than normally dissolves in a solvent at a given temperature.
A saturated solution is a solution that no more solute will dissolve. Once the solution is saturated, any more solute that is added will not dissolve.
Bonding, polarity of the particles, and intermolecular forces between particles determine if a solute will be soluble in a given solvent.
solubility is a measurement that describes how much solute dissolves in a given amount of the solvent.
solute dissolves more rapidly in hot water
The concentration of the solute in the solution at a given temperature, exprimed in g/100 mL.
There are many factors that affect how much of solute will dissolve in water. Variables such as temperature, size of solute particle etc play an important role when dissolving solute in water. Water is also known as universal solvent.
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.
This is called a supersaturated solution.
Depends on what the sovlent and solute are.
solubility
A saturated solution is a solution that no more solute will dissolve. Once the solution is saturated, any more solute that is added will not dissolve.
When a solution has accepted as much solute as is possible at a given temperature, the solution is said to be saturated. Under certain conditions, saturated solutions can be concentrated to give supersaturated solutions. Supersaturated solutions are those which possess more of a solute than normally dissolves in a solvent at a given temperature.
It is called a saturated solution. This is created by adding in solute until no more solute dissolves. Then the excess solute is filtered. This works much better for a saturated solution at room temperature, as when the solution hits the filter paper, some will come out because it is colder.
I'm not quite sure what the question means. When something (a solute) is fully dissolved in a liquid (a solvent), the size of the particles are the size of the molecules of the solute. In other words, when something dissolved, what exists in solution is individual and separate molecules. A molecule is on the order of a few angstroms (tenths of a nanometer). That's small. Very small.If you are asking about the size of the particles before it has dissolved, then the size is completely irrelevant to how much will dissolve. The size will affect how FAST it dissolves, but not how MUCH dissolves. How much dissolves, or if it dissolves at all, is an inherent property of the solute and solvent you are using. You have no control over that if you need a specific solute/solvent combination (although higher temperature often increases the solubility of things -- but not always).