You have made a mistake in your question, as iron does not have a charge, it is the iron ION. As chloride ion has a charge of -1, in order to gain the overall neutral charge of the compound we need to even out a charge of -2 (as there are two chloride ions). As there is only one iron ion, its charge must be 2+. It is an iron(II) ion, as opposed to iron(III) ion (which has a charge of 3+).
Hope it helps.
=)
The oxidation number of iron (Fe) in FeBr3 is +3. This is because each bromine atom (Br) has an oxidation number of -1, and since there are three bromine atoms in FeBr3, the overall charge must be balanced by a +3 charge on the iron atom.
FeBr3 is an ionic bond, as it forms between a metal (Fe) and a nonmetal (Br) resulting in the transfer of electrons from Fe to Br.
The chemical equation is:3 NaOH + FeBr3 = 3 NaBr + Fe(OH)3
There re two bromides of iron, iron(II) bromide, FeBr2, and iron(III) bromide 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.
The oxidation number of iron (Fe) in FeBr3 is +3. This is because each bromine atom (Br) has an oxidation number of -1, and since there are three bromine atoms in FeBr3, the overall charge must be balanced by a +3 charge on the iron atom.
FeBr3 is an ionic bond, as it forms between a metal (Fe) and a nonmetal (Br) resulting in the transfer of electrons from Fe to Br.
The chemical equation is:3 NaOH + FeBr3 = 3 NaBr + Fe(OH)3
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.
There re two bromides of iron, iron(II) bromide, FeBr2, and iron(III) bromide 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.
The chemical equation is:3 NaOH + FeBr3 = 3 NaBr + Fe(OH)3
Fe has an oxidation number of+2 in ferrous salts+3 in ferric saltsAs Br has an oxidation number of -1 in bromide, only two salts of Fe with Br are possible:FeBr2 = ferrous bromideFeBr3 = ferric bromideand FeBr DOES NOT EXIST
Iron bromide, which has the formula FeBr3, is an ionic compound. In this compound, iron (Fe) has a positive charge, while bromine (Br) has a negative charge. This difference in charge leads to the formation of an ionic bond between the two elements.
The chemical formula of iron(III) bicarbonate is Fe(HCO3)3.The iron bromides are FeBr2 and FeBr3.
The chemical formula for ferric bromide is FeBr3.
Iron bromide is composed of iron (Fe) and bromine (Br) atoms. It can exist in different forms, such as FeBr2 (iron(II) bromide) or FeBr3 (iron(III) bromide), depending on the oxidation state of the iron atom.