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Potassium bromide is a salt, soluble in water, made up of two ions: K+ and Br-
Yes, iodine (Iā) can react with potassium fluoride (KF). The reaction between iodine and potassium fluoride typically involves the displacement of fluorine in potassium fluoride by iodine. The balanced chemical equation for this reaction is: [I_2 + 2KF \rightarrow 2KI + F_2] In this reaction, iodine displaces fluorine in potassium fluoride, forming potassium iodide (KI) and elemental fluorine (Fā). It's worth noting that the reaction conditions, such as temperature and solvent, can influence the reaction kinetics and outcomes.
The solubility of iodine in water is increased adding potassium iodide.
Potassium iodide does not react with water; it only dissolves. The equation for this is KI(s) --> K+(aq) + I-(aq).
Yes it does dissociate, and dissolve completely in water, as KBr is an ionic salt.
KBr + H2O = Kaq+ Braq- Haq+ OHaq-
Potassium Bromide will conduct electricity only when it is melted or dissolved in water
Potassium bromide is a salt, soluble in water, made up of two ions: K+ and Br-
Yes, iodine (Iā) can react with potassium fluoride (KF). The reaction between iodine and potassium fluoride typically involves the displacement of fluorine in potassium fluoride by iodine. The balanced chemical equation for this reaction is: [I_2 + 2KF \rightarrow 2KI + F_2] In this reaction, iodine displaces fluorine in potassium fluoride, forming potassium iodide (KI) and elemental fluorine (Fā). It's worth noting that the reaction conditions, such as temperature and solvent, can influence the reaction kinetics and outcomes.
The leaf was rinsed in water to rehydrate it. Iodine solution is an aqueous solution of iodine/potassium iodine - potassium tri-iodide; water is needed inside the leaf to enable penetration by diffusion.
You can make iodine soluble in water by addition of potassium iodide KI
The iodine stain solution you're referring to might be Lugol's iodine. This is iodine and potassium iodide in water. The product available in a pharmacy is tincture of iodine which is iodine and potassium iodide in ethanol and water. Please see the links.
The solubility of iodine in water is increased adding potassium iodide.
Iodine is very low soluble in water; adding potassium iodide the solubility is higher.
Potassium iodide does not react with water; it only dissolves. The equation for this is KI(s) --> K+(aq) + I-(aq).
It allows ions to flow through the water.
Yes it does dissociate, and dissolve completely in water, as KBr is an ionic salt.