No, because neither of them sublimate at 760 torr (1 atm). They melt. You could separate them by melting point, as NaCl has a melting point of 801ºC, but KCl has a melting point of 770ºC.
Sublimation is a physical change.
Two different elements. They are potassium and chlorine.
Calcium chloride and potassium chloride are pure substances.
Both potassium chloride and calcium chloride are strong electrolytes when dissolved in water or when molten.
It depends. It is most likely potassium chloride and lithium carbonate
Yes, camphor and sodium chloride can be separated by sublimation. Camphor sublimes at a lower temperature than sodium chloride, allowing them to be separated based on the difference in their sublimation points. The camphor will sublime and can be collected separately from the non-sublimed sodium chloride.
A mixture of ammonium chloride and potassium chloride can be separated using the process of sublimation. You must also note that both these substances are sublimable. Well this technique is quite feasible in this case as the sublimable temperatures of ammonium and potassium chloride differ widely. Between the two, ammonium chloride has lower sublimable temperature. Therefore, it sublimes first followed by potassium chloride.
A mixture of ammonium chloride and potassium chloride can be separated using the process of sublimation. You must also note that both these substances are sublimable. So, the question arises that how can these substances be separated using this technique? This technique is quite feasible in this case as the sublimable temperatures of ammonium and potassium chloride differ widely. Between the two, ammonium chloride (See the related link) has lower sublimable temperatures. Therefore, it sublimes first followed by potassium chloride.
Potassium chloride is a chemical compound commonly used as a salt substitute in food. When potassium chloride is mixed with water, it dissolves and forms a solution in which the potassium and chloride ions are separated and dispersed evenly throughout the water.
To separate ammonium chloride from a mixture of ammonium chloride and potassium chloride, you can use the process of sublimation. Ammonium chloride sublimes at a lower temperature compared to potassium chloride. By heating the mixture, the ammonium chloride will directly change from a solid to a gas, leaving behind the potassium chloride. The resulting gas can be condensed back into solid form for collection.
The mixture of camphor and sodium chloride can be separated by sublimation. Camphor can be sublimed by heating, leaving sodium chloride behind. The vaporized camphor can then be collected and allowed to solidify back into pure camphor.
To separate a mixture of potassium chloride and iodine, you can use a process called sublimation. Iodine can be sublimed by heating the mixture, causing it to change from a solid directly to a gas. The iodine vapor can then be collected and condensed back into solid iodine. The remaining potassium chloride will be left behind as a solid.
Sodium chloride and ammonium chloride can be separated either by sublimation or filtration or crystallization. Sublimation can be found on this site ------------ http://www.lenntech.com/Chemistry/sublimation.htm. I personally think that this method is the easiest.
Naphthalene can be separated from sodium chloride by sublimation. When the mixture is heated, naphthalene will sublimate, turning from a solid to a gas, and can be collected separately from the solid sodium chloride.
Potassium chloride
No, potassium chloride contains potassium chloride.
Oh, dude, potassium chloride is totally sublime... in the scientific sense! It sublimes at high temperatures, meaning it goes from a solid to a gas without melting first. So yeah, it's like the David Blaine of chemicals, just disappearing into thin air.