By sublimation
One way to separate common salt (sodium chloride) and ammonium chloride is by sublimation. Heat the mixture and the ammonium chloride will turn into gas and can be collected as a solid when it re-condenses. The common salt remains behind as a solid.
Heating the mixture ammonium chloride is decomposed after 315 oC.
Ammonium chloride and common salt can be separated by sublimation, as ammonium chloride sublimes at a lower temperature compared to common salt. When heated, the ammonium chloride will turn into a gas and can be collected separately from the remaining common salt.
Because ammonium chloride can be removed from salt by sublimation (at a given temperature).
By the process of sublimation.
You can separate ammonium chloride from salt by sublimation. Ammonium chloride sublimes at a lower temperature compared to salt, so when heat is applied, ammonium chloride will turn directly into a gas and can be collected as a solid again by cooling it down. Salt will remain behind as a residue.
No single atom is the cation in ammonium chloride. The cation is polyatomic NH4+1.
Yes
To separate ammonium chloride from a mixture of ammonium chloride and potassium chloride, you can use the process of sublimation. Ammonium chloride sublimes at a lower temperature compared to potassium chloride. By heating the mixture, the ammonium chloride will directly change from a solid to a gas, leaving behind the potassium chloride. The resulting gas can be condensed back into solid form for collection.
Ammonium chloride. This is a CHemical Salt. HCl + NH3 = NH4Cl
Heat it until the ammonium chloride sublimes. Then add distilled water to what's left, stir, allow the solid to settle to the bottom of the dish, and decant the liquid. Repeat that 3 times. That'll extract the sodium chloride (salt) from the silicon dioxide (sand), because the NaCl is soluble in water. Then heat the salt water solution carefully until all the water is evaporated. Then heat the sand to dry it out.
Ammonium chloride is soluble in water and the sand can be separated from the solution by filtering.