Step 1. Dissolve the mixture in water. This will dissolve the sodium chloride.
Step 2: Run the mixture through a filter. The saltwater (aqueous sodium chloride) will pass through the filter.
Repeat Steps 1 and 2 to ensure that you get all the salt leached out. Save both your filter with the crud on it as well as the saltwater that passed through the filter.
Step 3: Pour the saltwater into an evaporating dish and evaporate the water off of it. You can speed this process with heat from a hotplate or an oven.
Step 4: Take your filter paper that has the sand/sulfur mixture and dump it into a beaker.
Step 5: Heat this beaker on a hotplate. The sulfur will melt at around 113 degrees C which is not much greater than boiling water.
Step 6: Once the sulfur is liquified, hotfilter the mixture to recover the sand in the filter paper and the sulfur in a beaker
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
1. Put the mixture in water and stir.2. Filter the suspension. Sodium chloride pass in the solution. After water evaporation crystallized NaCl is obtained.3. Add carbon disulfide on the material remained on the filter. Sulfur is dissolved and pass in the solution. Sand remain on the filter.
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.
sulfur sodium chloride sand is a homogeneous mixture (solution)
Sodium chloride is soluble in water.
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
Well, first you place the mixture in water and then the sodium chloride will start to dissolve, but the sand and sulfur will not. Next, you drain the water and place the sand/sulfur mix into cold carbon disulfide, which dissolves sulfur. You're left with plain sand. Finally, you do your chemistry homework yourself.
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.
You can separate common salt and sand by dissolving the mixture in water and then filtering the solution. The salt will dissolve in water, while the sand will remain as a solid. Next, you can separate the sulfur from the remaining mixture of sulfur and sand by using a magnet since sulfur is weakly magnetic.
NaCl, table salt, and ammonium chloride will both dissolve in water. Sand is only sparingly soluble in water. If you want to further separate ammonium chloride from sodium chloride, you will need to dry the resulting solution. The sodium chloride will precipitate out first. The ammonium chloride will remain in the supernatant and can be poured off leaving the sodium chloride crystals behind.
To separate flour, sand, and sulfur, you can use a combination of techniques. First, use a sieve to separate the sand from the flour. Next, mix the remaining mixture with carbon disulfide to dissolve the sulfur. After the sulfur has dissolved, filter the mixture to separate the sulfur solution and the leftover flour particles.