When Bromine is mixed with Benzene it becomes bromobenzene.
Iron & Bromine Its chemical formula is FeBr3
Fe + Br3 ---> FeBr3
* iron (II) bromide * iron bromide * iron dibromide
Benzene is stable towards oxidation of KMnO4 because it is a stable aromatic molecule. For an oxidation there would have to be a reaction, but since there is no reaction it is stable. Benzene is stable until there is a catalyst such as FeCl3, FeBr3, AlCl3, etc. This type of catalyst is used because it makes the bonding molecule more electrophilic and so it wants to attach to the electron-rich, also know as nucleophilic, benzene ring.
ionic
Iron & Bromine Its chemical formula is FeBr3
Fe + Br3 ---> FeBr3
* iron (II) bromide * iron bromide * iron dibromide
You are trying to make a para compound, so the trick here is to recognize that bromine is an ortho-para director (albeit a weak one) and nitro is a meta director. Therefore, you want to add the bromine first and then the nitro. Doing the reaction in reverse order will result in the meta product. Your reaction pathway is: 1) Benzene + Br2 + FeBr3 => Bromobenzene 2) Bromobenzene + HNO3 + H2SO4 (catalytic) => 1,2 bromonitrobenzene + 1,4 bromonitrobenzene
Iron and Bromine, the formula is FeBr3 Make sure the 3 is below everything else or it isn't right:)
Benzene is stable towards oxidation of KMnO4 because it is a stable aromatic molecule. For an oxidation there would have to be a reaction, but since there is no reaction it is stable. Benzene is stable until there is a catalyst such as FeCl3, FeBr3, AlCl3, etc. This type of catalyst is used because it makes the bonding molecule more electrophilic and so it wants to attach to the electron-rich, also know as nucleophilic, benzene ring.
the answer to your riddle would have to be fe + br2 --> febr3 --------[[8]]--------------[[8]]-----------------[[O]] police car chase
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
FeBr3
ionic
FeBr3