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It increases the concentration of OH - in a solution.
When a beam of light passes through a colloidal solution it scatters because of tyndall effect.
It sinks to the bottom of the vessel, remaining undisolved. It may continue to dissolve if the temperature of the liquid increases.
If the solid is soluble (can dissolve) then it will dissolve in the liquid and give you a solution.
As you add solute to a dilute If_you_add_solute_to_a_dilute_solution_what_does_the_solution_become, the solution becomes more concentrated until the solution has reached its saturation concentration. At the saturation concentration, no more solute can dissolve into the solution.Read more: If_you_add_solute_to_a_dilute_solution_what_does_the_solution_become
It will dissolve in the solution.
It increases the concentration of OH - in a solution.
It will dissolve
The particles of solute dissolve in the solvent when the solution forms.
If the solute is soluble, it will dissolve in the solvent.
It increases the concentration of OH - in a solution.
They will dissolve in the water and form a solution. The amount that will dissolve depends on the solubility of the solid and the temperature.
Any surface shine it has will disappear as the smoothed surface will begin to dissolve.
The sugar will dissolve in the water, changing the sugar from solid to liquid.
Silver nitrate will dissolve in distilled water. When added to a salt solution silver chloride will fall out of solution.
No reaction takes place. pH of the solution increase.
Yes, because the solution is not yet saturated -- there is room for more solute to dissolve.