How do you solve #I^- + ClO^- rarr I_3^- +Cl# using the redox reaction method in a base solution?

1 Answer
anor277
Jan 26, 2017

#"Hypochlorite"# is reduced to #"chloride"#..........

Explanation:

And #"iodide"# is oxidized to #"triiodide"#.............

#"Reduction:"#

#ClO^(-) +2H^(+) + 2e^(-) rarrCl^(-) + H_2O# #(i)#, yes I know you asked for basic solution, but attend........

#"Oxidation:"#

#3I^(-) rarrI_3^(-) + 2e^(-)# #(ii)#

For each half equation, mass and charge are conserved as is required. Am I right?

We add #(i)# and #(ii)# to remove the electrons.

#ClO^(-) +2H^(+) + 3I^(-) rarrI_3^(-) + Cl^(-) +H_2O#

But you specified basic solution. So all we have to do is add #2xxHO^-# to each side:

#ClO^(-) +cancel2H_2O(l) + 3I^(-) rarrI_3^(-) + + Cl^(-) +2HO^(-)+cancel(H_2O)#

To give me finally,

#ClO^(-) +H_2O(l) + 3I^(-)rarrI_3^(-) + Cl^(-) + 2HO^(-)#

Which I think is balanced with respect to mass and charge.

Related questions
See all questions in Balancing Redox Equations Using the Oxidation Number Method
Impact of this question
18018 views around the world
You can reuse this answer
Creative Commons License