Heat, Stirring, Particle size,
*Warming it *Stirring it *Usign a catalyst
if the water is hot,the solvent will dissolve faster and when it gets stirred it will dissolve even faster than when it wasn't. but if the water is cold it will dissolve slower than hot water even when stirred.
By using warm water and stirring it around
Stirring makes it faster for the sugar to completely dissolve in the tea.
Alka Seltzer dissolves faster in lemonade than in ginger ale. This is because the acidity of lemonade helps break down the tablet more efficiently, allowing it to dissolve quicker.
One solvent is not faster than another, because different solutes require different solvents. If you are using the right solvent, the solute will usually dissolve rapidly. You can also make things dissolve faster by heating the solvent, and by stirring the solution.
You can dissolve a large tablet by placing it in a glass of water and stirring until it is completely dissolved. Alternatively, you can crush the tablet into a fine powder and mix it with water to help it dissolve faster.
Yes. This is due to the movement of the molecules. As you stir the solution, there is more kinetic energy. The more kinetic energy something has, the more heat is produced, which causes a substance to dissolve faster. In addition, stirring causes the substance to be exposed to more surface area.
You can dissolve blue copper sulphate crystals faster by increasing the temperature of the solvent (water), stirring the solution, or crushing the crystals to increase the surface area in contact with the solvent.
Heating causes an increase in speed of dissolving as does stirring faster. In addition, crushing to a fine powder (smaller particle size) increases the surface area to volume ration and helps the substance to dissolve faster.
You can make salt dissolve faster in water by stirring the solution, heating the water slightly (not boiling), or crushing the salt into smaller particles before adding it to the water. These methods increase the surface area of the salt particles in contact with the water, allowing for quicker dissolution.