If I had a large quantity of a mixture of iodine and salt and wanted to separate them, I'd probably just use heat. Iodine turns into a gas at a relatively low temperature (below 200 degrees Celcius), at which temperature sodium chloride is still stubbornly solid.
Iodine is also considerably less soluble in water than salt is, so if you don't care about a small iodine impurity in the salt you could just add water and pour off the supernatant solution.
heat the mixture iodine will sublime collect the iodine vapour separately and cool
First heat the mixture; the iodine will sublime and turn to a vapor which can be collected. Then add water to the remaining salt/sand mixture; the salt will dissolve but the sand will not. Finally, evaporate the water to obtain the solid salt.
Iodine can be separated from salt by the process of sublimation.Sublimation is the process of conversion of a material from solid state to gaseous state without undergoing liquid state.Some sublimate objects are ammonium chloride,iodine,moth balls,camphor,etc.
It s a mixture is in salt somepercent of iodine solution is added
First heat the mixture; the iodine will sublime and turn to a vapor which can be collected. Then add water to the remaining salt/sand mixture; the salt will dissolve but the sand will not. Finally, evaporate the water to obtain the solid salt.
If your mixture is sand and salt, separating the two will give you sand and salt.Whatever the mixture is made of, separating the components will give you the components
Ah, separating iodine from sodium iodide is like creating a happy little separation. You can do this by adding water to the mixture, which will dissolve the sodium iodide but not the iodine. Then, you can use a filter to separate the solid iodine from the liquid sodium iodide solution. Just remember, there are no mistakes in science, only happy accidents.
To separate salt and iodine, you can use sublimation. The iodine will sublimate at room temperature, leaving the salt behind. To purify the iodine further, you can re-sublimate it by heating it gently and collecting the vapor to form pure iodine crystals.
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.
Boil the water so that the salt can recrystallize thus separating the salt from water (evaporation).
Yes, iodized salt is considered a homogeneous mixture because the iodine is evenly distributed throughout the salt crystals, resulting in a consistent composition throughout the mixture.
Iodine is an element, not a compound or mixture. It is a non-metal that exists as a solid at room temperature and is commonly used in iodized salt for nutritional purposes.