Fe + Br3 ---> FeBr3
Iron(III) bromide contain iron and bromine.
Iron & Bromine Its chemical formula is FeBr3
* iron (II) bromide * iron bromide * iron dibromide
Reacting Iron(II) carbonate with Hydrobromic acid produces Iron(II) Bromide, water and Carbon dioxide. FeCO3 + HBr ----> FeBr2 + H2O + CO2
FeBr3 (Iron III Bromide) has three moles of bromide for every mole of iron. FeBr2 (Iron II Bromide) has two moles of bromide ion per mole of Iron.
Iron(III) bromide contain iron and bromine.
Iron & Bromine Its chemical formula is FeBr3
iron bromide
* iron (II) bromide * iron bromide * iron dibromide
it is the empirical formula for iron bromide
The reaction of iron(II) salts with bromine is a redox reaction forming iron(III). The aqueous reaction with bromine water is typical:- 2Fe2+ + Br2 -> 2Fe3+ + 2Br- If you started with iron(II) bromide, iron(III) bromide would be formed
Reacting Iron(II) carbonate with Hydrobromic acid produces Iron(II) Bromide, water and Carbon dioxide. FeCO3 + HBr ----> FeBr2 + H2O + CO2
Ionic bond. The metal (iron) gives up electrons to the non-metal (bromine.)
Iron and Bromine, the formula is FeBr3 Make sure the 3 is below everything else or it isn't right:)
Fe+2 Br-1 = The ions and their chargesFe+2 Br-1 Br-1 = The ions have to add up to zero, so two -1 bromine ions cancel out one +2 iron ionFeBr2 = simplification and final answer
It is not an element, it's a compound. It would be called iron (II) bromide in the IUPAC system, or ferrous bromide in the antiquated pre-IUPAC nomenclature.
FeBr3 (Iron III Bromide) has three moles of bromide for every mole of iron. FeBr2 (Iron II Bromide) has two moles of bromide ion per mole of Iron.