Electrolysis of molten sodium chloride will yield chlorine gas and liquid sodium metal which will cool to solid sodium metal. Electrolysis is best though reaction of molten NaCl with potassium, rubidium or cesium would be an alternative (not producing chlorine but exchanging metals to form the other chlorides).
Actually any of these reactions are not a (physical) extraction as said in the question.
- Add water to the mixture and vigorously stir.
- Filter the liquid.
- Sodium chloride solution pass in the filtrate.
- Heat the solution; after the evaporation of water solid sodium chloride is obtained.
Distillation. Boil the solution until the water is gone and the sodium chloride remains.
After the evaporation of water crystallized sodium chloride is obtained.
By heating and evaporation water is released and solid sodium chloride is obtained.
Evaporating the water from a solution solid sodium chloride is obtained.
No sodium chloride is not a heterogeneous mixture.
NaCl (sodium chloride) is a compound, not a mixture.
Sodium chloride is a compound, not a mixture.
Sodium chloride is a chemical compound, not a mixture.
Only the water solution of sodium chloride is a mixture of NaCl and water.
No, sodium chloride is a compound.
Sodium chloride is a compound, not an element. The solution is a homogeneous mixture./
Ferric sodium chloride (Na3ClFe) is a compound not a mixture.
Pure sodium chloride is homogeneous compound. It is not a mixture.
Sodium chloride is a compound of sodium and chlorine formed by ionic bonding of sodium ions and chlorine ions.
Sodium chloride is a chemical compound, not a mixture; NaCl is homogeneous.
Wash the mixture with water and separate the solid from the liquid, for example, by filtration. The sodium chloride will dissolve in the wash water, while the copper is left behind.