By boiling water is evaporated and salt remain as crystals.
Boiling off the water from a salt solution will separate the solid salt and water (which can be collected by a condenser).
Use filtration to separate the sand from the water and salt. Then use evaporation to separate the salt from the water. Use distillation to evaporate the water, leaving the salt behind. Then use filtration to separate the remaining sand from the salt.
It all depends on the substance and its physical properties. For example, salt water can be separated by boiling the water and letting the salt remain.
Because the boiling point for salt ( NaCl ) is 1413 degrees Celsius, and the boiling point for water ( h2o) is 100 degrees Celsius, it is possible to boil salt water, and have the water evaporate, and the salt remain .
If you dissolve the salt and the sand in water the sand will stay beind and the salt would dissappear. But if you want the salt back you can evaporate it off, by boiling the water. (with the dissolved salt in it)
Salt dissolves in water, sand does not. Mix water with the solids, pour off the water, and sand is left behind, Evaporate the water by boiling it, and the salt will be left.
Salt water, but the water will stop boiling because upon adding the salt it raised the boiling point of water.
By boiling (distillation) or freezing (crystallization). Methods for producing drinkable water from salt solution include Reverse Osmosis and Ion Exchange.
No, salt does not evaporate in boiling water. When water boils, it turns into steam, leaving behind the salt in the water. Salt does not have a low enough boiling point to evaporate along with the water.
If you're talking about regular old table salt, then your answer is salt water--specifically boiling salt water.
One way to separate salt from water at home is through a process called evaporation. Simply heat the saltwater until the water evaporates, leaving behind the salt. Another option is to use a process called distillation, where the steam from boiling saltwater is collected and cooled to separate the salt from the water.
by incresening the destiny of the product of water