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Potassium lose an electron (iodine gain this electron) to form potassium iodide, KI.
No it is not for astatine is the weakest of halogens and can be displaced by other lighter halogens into salts.
Yes. Rubidium is an alkali metal in the sodium group. It will react with iodine to form rubidium iodide:- 2Rb+ I2 -> 2RbI
Potassium will react vigorously of violently with many nonmetals.
You won't find KI on the periodic table, but you will find K and I. K is potassium (#19) and I is iodine (#53). Potassium is an alkali metal and iodine is a halogen. They are both very reactive and react readily with each other to form potassium iodide, which is KI, a white, bitter tasting solid.
The cation is K+ and the anion is I-.
Bromine and Potassium iodide react to form Potassium bromide and Iodine.
Potassium lose an electron (iodine gain this electron) to form potassium iodide, KI.
No. However, bromine would displace iodine in potassium iodide.
No it is not for astatine is the weakest of halogens and can be displaced by other lighter halogens into salts.
It's K+; + like any element of the first colonne of the periodic classification.
Yes, they react tor form water and the corresponding potassium carboxylate salt.
Iodine (I), sodium iodide (NaI), potassium iodide (KI), hydroiodic acid (HI)
Yes. Rubidium is an alkali metal in the sodium group. It will react with iodine to form rubidium iodide:- 2Rb+ I2 -> 2RbI
Yes. Potassium will react readily with oxygen to form potassium peroxide.
K + o2 = ko2
Iodine is very low soluble in water; adding potassium iodide the solubility is higher.