Salt remain as residue after evaporation.
Evaporation. You could really speed things along by distilling the brine to recover the salt, but if you just put the brine in a dish and let it evaporate, that's what they call it.
Dont get me wrong, but you seem to be asking how to separate salt from water. I think if you evaporate water, the salt cannot evaporate, and it stays behind. However, if the light is really hot, it will evaporate the salt along with the water. (Example: If you put salt and water in a dish and hold it on top of a lit candle, the light is hot enough to evaporate water, but not hot enough to evaporate salt.
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.
Water dissolve and transport salt.
You get two cups then you put your hand on the cup that has the water and the salt and pour it and there it is
The greatest percentage of salt is extracted from mines. You get sea water and put it in a evaporating dish. Then evaporate the water and then there is salt left.
Salt isn't made from salt water, it is already present in the salt water. If you were to heat up the salt water, or put it on an evaporating dish, after a while, all the water will be gone and you'll be left with salt crystals. Industrially sea water is 10times concentrated to get salt crystals.
evaporating dish is used to let substances to evaporate.-aramis nats-Evaporating dishes are used to evaporate excess water - or other solvents - to ensure that a concentrated solution or the dissolved substance is left behind.an evaporating dish is put on top of a tripod over a Bunsen burner and liquids are evaporated off like water evaporated off salt water leaving salt.to let the solvent evaporate and collect the solute in solid state from dissolved stateIt is used to evaporate water from solution to obtain solid materials.
evaporating dish-where you put the salt water ,Bunsen Burner and tripod..that's all
Two graduated beakers. Water and salt. Put a known amount of plain water in one and the same amount of salt water in the second beaker. Then observe which one evaporates faster.
Evaporation. You could really speed things along by distilling the brine to recover the salt, but if you just put the brine in a dish and let it evaporate, that's what they call it.
take some alkali in a beaker and some acid in a test tube that is enough to neutralize the alkali. then pour the neutralized material in an evaporating basin. put the evaporating basin on a stove, when the water is evaporated salt will appear.
Yes, the salt would still be in the water. Because salt is less dense than water, it will not evaporate with the water, and it will still be there. The salt would become more concentrated in the water if the water is evaporating. So yes, in short, the salt would still be in the water. This is how refining sea salt works.
If it was put through a turbine and spun around, yes. Though salt water doesn't burn much better than regular water (though it does depend on the salt quantity) but evaporating the water to leave behind the salt to burn the salt isn't a very good idea because of the smell it causes.
The little white one? It's called an evaporating dish that you put your items and water in and let it evaporate over the Bunsen burner.
First you want to get the iron filings out. You do this with a magnet.Next, put the sand-salt mixture in water. Stir well to dissolve the salt, then pour off the water. (If you really want to be slick about it, rinse the sand in plain water.)Then put the salt water in a shallow dish and let it evaporate.
Dont get me wrong, but you seem to be asking how to separate salt from water. I think if you evaporate water, the salt cannot evaporate, and it stays behind. However, if the light is really hot, it will evaporate the salt along with the water. (Example: If you put salt and water in a dish and hold it on top of a lit candle, the light is hot enough to evaporate water, but not hot enough to evaporate salt.