The chemical equation is:3 NaOH + FeBr3 = 3 NaBr + Fe(OH)3
To determine the molarity, you need to know the volume of water the 3 moles of FeBr3 are dissolved in. With this information, you can use the formula: Molarity (M) = Moles of solute / Liters of solution. Therefore, if you dissolve 3 moles of FeBr3 in 1 liter of water, the molarity would be 3 M.
An oxonium cation is a polyatomic cation with a charge of +1 with a central oxygen bonded to three groups or elements Examples:- H3O+ is the oxonium cation, (C2H5)3O+ is the triethyloxonium cation.
What is a unknown cation
A common name for a cation is a positively charged ion.
When bromine is mixed with benzene in the presence of FeBr3 catalyst, bromination of benzene occurs. The FeBr3 catalyst activates the bromine molecule to form a bromine cation, which then electrophilically attacks the benzene ring, replacing a hydrogen atom with a bromine atom. This results in the formation of bromobenzene.
The chemical formula for ferric bromide is FeBr3.
The reaction between sodium (Na) and iron(III) bromide (FeBr3) would result in the formation of iron (III) bromide (FeBr3) and sodium bromide (NaBr). It follows the single displacement reaction: 2 Na + 2 FeBr3 -> 2 NaBr + 2 FeBr3.
FeBr3
The symbol for Iron (III) bromide is FeBr3.
It is a Bronsted-Lowery base because the carbonyl oxygens will readily accept a proton.
Ferrous bromide is FeBr3 Do NOT confuse with Ferric bromide which is FeBr3
The chemical equation is:3 NaOH + FeBr3 = 3 NaBr + Fe(OH)3
Formula: FeBr3
FeBr3
FeBr3
The main difference between FeBr2 and FeBr3 is the oxidation state of iron. In FeBr2, iron has a +2 oxidation state, whereas in FeBr3, iron has a +3 oxidation state. This results in different chemical and physical properties for the two compounds.