Add warm water to dissolve the KBr which is very soluble. This would become the aqueous layer and would be more dense and thus at the bottom. Add them to a sep funnel and decant. Evaporate the water off and you have the KBr. The remaining fluid in the sep funnel is npahthalene
first, add water to the mixture, barium chloride is soluble in water. then filter through and funnel and filter funnel. then add sodium sulphate, using the stove they will expand and separate. ( sodium cloride, and sand
heat the mixture until you no longer see white fumes, then stir the mixture to make sure all of the ammonium chloride is sublimed (solid moved to a gaseous state without passing through the liquid phase. All that should be left is the sand.
You can use a combination of filtration and evaporation. First, use filtration to separate the sulfur from the sand. Then, dissolve the sodium chloride in water and use evaporation to recover the salt once the water has evaporated, leaving the sand behind.
Ammonium chloride sublimes when heated, transitioning from a solid directly to a gas without passing through a liquid phase. Sand does not undergo sublimation as it does not turn into a gas when heated, but rather melts at high temperatures.
sulfur sodium chloride sand is a homogeneous mixture (solution)
Iron filings removed magnetically. Water will dissolve sodium chloride and suspend sand. Sand can be filtered out of the solution, and salt reovered by evaporation of water. Naphthalene can be removed separately if necessary by solution of mixture in alcohol.
One way to separate naphthalene from sand is by sublimation. By heating the mixture, the naphthalene will undergo sublimation, turning into a gas and leaving behind the sand. The gas can then be collected and cooled back into solid naphthalene.
Sublimation can be used to separate naphthalene from sand. Naphthalene can be heated to change it directly from a solid to a gas, leaving the sand behind. The gas can then be collected and cooled to form solid naphthalene again.
One way is to dissolve the ammonium chloride in water, then recover the ammonium chloride by evaporation; the naphthalene will not dissolve in water in any substantial quantity.
Ammonium chloride is soluble in water and the sand can be separated from the solution by filtering.
One suitable technique to separate sand from ammonium chloride is filtration. The mixture can be dissolved in water, allowing the ammonium chloride to go into solution while the sand remains as a solid. The solution can then be passed through a filter to separate the sand from the dissolved ammonium chloride.
Sodium chloride is soluble in water.
One method for separating sand from a solution of potassium chloride could be filtration. The mixture can be poured through filter paper or a filter funnel, allowing the liquid potassium chloride solution to pass through while trapping the solid sand particles.
first, add water to the mixture, barium chloride is soluble in water. then filter through and funnel and filter funnel. then add sodium sulphate, using the stove they will expand and separate. ( sodium cloride, and sand
To separate a mixture of sand, table salt, iron filings, and naphthalene, you can use a combination of physical methods. First, use a magnet to attract and remove the iron filings. Next, dissolve the salt in water, filtering out the undissolved sand and naphthalene. Finally, evaporate the water from the salt solution to retrieve the salt, leaving behind the naphthalene, which can be collected through sublimation if heated gently.
Sulfur is extracted with carbon disulfide.Put sand and NaCl in water; sand which is not soluble can be separated from sodium chloride by filtration.
Sulfur is S , a chemical element . Sodium chloride ( NaCl ) is the table salt , a chemical compound . Sand represents a mineral ; the composition