The oxidation state of Fe in FeBr2 is +2.
The oxidation state of Fe in FeBr3 is +3.
Anything important; two bromides are known: FeBr2 and FeBr3.
* iron (II) bromide * iron bromide * iron dibromide
There re two bromides of iron, iron(II) bromide, FeBr2, and iron(III) bromide FeBr3
Melting point of FeBr2: 684 0C Melting point of FeBr3: decomposition to previous bromide after 200 0C
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.
Anything important; two bromides are known: FeBr2 and FeBr3.
Anything important; two bromides are known: FeBr2 and FeBr3.
* iron (II) bromide * iron bromide * iron dibromide
There re two bromides of iron, iron(II) bromide, FeBr2, and iron(III) bromide FeBr3
Melting point of FeBr2: 684 0C Melting point of FeBr3: decomposition to previous bromide after 200 0C
The chemical formula of iron(III) bicarbonate is Fe(HCO3)3.The iron bromides are FeBr2 and FeBr3.
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
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.
ferric bromide or iron(III) bromide. CAS No. 10031-26-2 ((FeBr3))Molecular Formula: Br3FeMolecular Weight: 295.557
This is an incomplete question for several reasons. Iron bromide can be FeBr2 or FeBr3 and this will influence the answer. Also, in order to precipitate silver bromide, one would add silver nitrate, but it isn't stated how much silver nitrate is used. Assuming FeBr2 is used, and there is excess AgNO3, then .... 2AgNO3 + FeBr2 ----> 2AgBr(s) + Fe(NO3) moles FeBr2 = 2.96 g x 1 mol/216 g = 0.0137 moles moles AgBr produced = 2 x 0.0137 = 0.0274 moles mass AgBr produced = 0.0274 moles x 188 g/mole = 5.15 grams <---answer
FeBr3
FeBr3