sublimate it and get ammonia gas and hcl acid gas and then solidify
Ammonium chloride is soluble in water and copper oxide not; dissolve the mixture and filter.
Ammonium chloride is soluble in water, sulphur isn't. So mix the mixture with water and filter out the sulphur. Now evaporate the filtrate to obtain the ammonium chloride and permit the sulphur to dry.
no because both sublime on heating
first add water to mixture the ammonium chloride and barium chloride dissolve in the water but the iodine does not. filter out the iodine using filtration then use fractional crystallization to separate the ammonium chloride and barium chloride and water
The secret to separating any mixture is to find a property in which the mixed substances differ. For instance, sodium choride (NaCl)is very soluble in water; whereas, ammonium chloride (NH4Cl) is not. By putting the mixture of NaCl and NH4Cl in water (enough to dissolve all of the NaCl, but not enough to dissolve the NH4Cl), the NaCl will dissolve, and the solid left behind is ammonium chloride.
Gently heat - ammonium chloride will sublime on a cold solid surface
Heating the mixture ammonium chloride is decomposed after 315 oC.
One way is to slurry the solid mixture with water. The ammonium chloride will dissolve and the naphthalene will not. Ammonium chloride can then be recovered by evaporating the water solution of it that is formed.
By the process of sublimation.
Ammonium chloride is soluble in water and copper oxide not; dissolve the mixture and filter.
Ammonium chloride is soluble in water, sulphur isn't. So mix the mixture with water and filter out the sulphur. Now evaporate the filtrate to obtain the ammonium chloride and permit the sulphur to dry.
Do Not Kow
Because ammonium chloride can be removed from salt by sublimation (at a given temperature).
none
no because both sublime on heating
first add water to mixture the ammonium chloride and barium chloride dissolve in the water but the iodine does not. filter out the iodine using filtration then use fractional crystallization to separate the ammonium chloride and barium chloride and water
I suppose that the best method is a repeated crystallization/recrystallization process.