Find the product for the equation and then write a balanced equation.

Cl2 + FeBr3 -> ?

3Cl2(g) + 2FeBr3(aq) ==> 3Br2(l) + 2FeCl3(aq)

To find the product of the equation Cl2 + FeBr3, we need to look at the reaction between chlorine (Cl2) and iron(III) bromide (FeBr3).

Chlorine is a halogen, and it's highly reactive. It will displace bromine (Br) from iron (Fe) to form its own compound. This is an example of a redox reaction.

To balance the equation, we need to make sure that there is an equal number of atoms on both sides of the reaction. Let's balance it step by step:

1. Start by balancing the iron (Fe) atoms. There is only one iron atom on the right-hand side of the equation (FeBr3), so we need to add a coefficient of 1 in front of FeCl2 to balance it: Cl2 + FeBr3 -> FeCl2 + Br2

2. Next, balance the bromine (Br) atoms. There are three bromine atoms on the right-hand side of the equation (FeBr3 and Br2). To balance it, we need to multiply FeCl2 by 3: Cl2 + 3FeBr3 -> 3FeCl2 + Br2

3. Finally, balance the chlorine (Cl) atoms. There are two chlorine atoms on the left-hand side of the equation (Cl2) and six chlorine atoms on the right-hand side (3FeCl2). To balance it, we need to multiply Cl2 by 3: 3Cl2 + 3FeBr3 -> 3FeCl2 + Br2

The balanced equation for the reaction between chlorine and iron(III) bromide is:
3Cl2 + 3FeBr3 -> 3FeCl2 + Br2