What's more entertaing than makin black powder with this and blowing something up? Nothing so go get a life.

Ever hear of ANFO? http://tinyurl.com/249zloz

lol. halarious. that is really funny. nice ible and cool chemistry, but it does seem like kind of a waste of NH4NO3.

Since the solution is concentrated with ionic species, it will not freeze at 0 Celsius. When the Ammonium Nitrate and Potassium Chloride are mixed in aqueous solution, all four ionic species (NH4+, NO3-, K+, Cl-) are present in solution. Of all of the possible ionic compounds that can be formed by these different species, KNO3 (potassium nitrate) has the lowest solubility, that is to say, that when you decrease the temperature of the solution, KNO3 will fall out of solution the fastest. Since precipitating KNO3 pulls K+ and NO3- ions out of solution, the equilibrium between the species is unbalanced, and more ammonium nitrate and potassium chloride dissociate, forming more KNO3. Of course, the solubility difference is not substantial enough to yield a completely pure product; NH4Cl, NH4NO3, and KCl will be present in small amounts in the final product. This is why using KOH, as opposed to KCl, is favored. The dissociated OH- anions will deprotonate the ammonioum cation, forming water and ammonia gas. If done under gentle heating, the solubility of the subsequent gaseous product is so low that it will effervesce from solution, pulling the equilibrium equation towards the production of more KNO3. In either process, crystals are filtered out to remove excess solute and impurities. Recrystalization could be employed to purify the products, but it would be much easier to just purchase KNO3 than go through all the trouble.

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