No, salt cannot be separated from something else with a magnet. Salt is not magnetic and does not respond to magnetic fields.
Yes, salt and iron filings can be separated by physical means such as using a magnet. The iron filings will be attracted to the magnet, allowing them to be picked up while the salt remains in the mixture.
The separated salt is a crystalline solid; the dissolved salt is dissociated in ions.
Firstly add distilled water to the mixture and heat and stir the solution. Filter the mixture to collect iron and sand as residue and the aqueous solution of salt as the filtrate in a conical flask or beaker. Pour the aq solution of salt into a evaporating dish and evaporate it to dryness. The salt is then obtained. Using a magnet, hover the magnet across the mixture of iron and sand. The iron filings will be attracted to the magnet, separating the iron from sand. The sand remains.
1. Salt will dissolve in carbon disulphide 2. Now we have a mixture of iron filings sugar and carbon disulphide(salt dissolved in it) 3. Separate iron filings by magnet. 4. Remove the sugar by Decantation process. 5. Separate carbon disulphide and salt by distilation.
Yes, salt water can be separated by evaporation. When the salt water is heated, the water evaporates, leaving the salt behind. The vapor can then be collected and condensed back into liquid water, leaving the salt separated.
Common salt and aluminum fillings can be separated by using a magnet. As aluminum is non-magnetic, the fillings can be easily separated from the magnetic salt using a magnet. Simply run the magnet over the mixture, and the aluminum fillings will be attracted to the magnet, leaving behind the salt.
Yes, salt and iron filings can be separated by physical means such as using a magnet. The iron filings will be attracted to the magnet, allowing them to be picked up while the salt remains in the mixture.
You use a magnet, the magnet will remove the iron filings.hi hi,what you can do is that, get a strong magnet and place it above the mixture. The iron fillings will be attracted to the magnet since it is a magnetic material. In the end you'll be left with salt only (:
no it really cannot. This is becauseDeforestation leads to the extinction
Iron fillings can be separated: - with a magnet - after the dissolution of the mixture, by filtering
No, a magnet would not be effective in separating salt from water as salt is not magnetic. Instead, the mixture could be separated through the process of evaporation, where the water would be evaporated, leaving the salt behind.
When separating a mixture of sand, salt, and iron, you can use a magnet to remove the iron since it is magnetic. Next, you can dissolve the salt in water to separate it from the sand. The sand can then be filtered out, leaving you with separate components.
By means of using magnet because magnet has a magnetite that can attract iron filings to separate it to other substance.
i think you can use something else than salt and something safer
A basifier is something which converts something else into a salifiable base - that which can be turned into a salt.
A magnet is not effective at separating salt and water because salt is not attracted to magnets. The components in the mixture have different physical properties (magnetism for the magnet, solubility for the salt) that make it impossible to separate them using a magnet. You would need to use methods like evaporation or filtration to separate salt from water.
The separated salt is a crystalline solid; the dissolved salt is dissociated in ions.