Briggs-Rauscher Reaction


The experiments described in these materials are potentially hazardous. Among other things, the experiments should include the following safety measures: a high level of safety training, special facilities and equipment, the use of proper personal protective equipment, and supervision by appropriate individuals. You bear the sole responsibility, liability, and risk for the implementation of such safety procedures and measures. MIT and Dow shall have no responsibility, liability, or risk for the content or implementation of any of the material presented. Legal Notice


Flash and JavaScript are required for this feature.

Download the video from iTunes U or the Internet Archive.

Previous track Next track

Mix these three colorless liquids and you get a chemical reaction that can tell time.

Teaching Notes: The Splendor of One Chemical Reaction (PDF)

Chemistry Magician: Dr. John Dolhun


You can also view this video on TechTV.

» Download this transcript - PDF (English - US)


JESSICA HARROP: Hi, I'm Jessica and today I'm going to be talking about a chemical demonstration called the Briggs-Rauscher Reaction. This reaction was discovered by two San Francisco-area high school chemistry teachers, Briggs and Rauscher, who were working in a lab to come up with a visually striking way to demonstrate an oscillating clock reaction,

Let's watch MIT's Dr. John Dolhun show us the reaction. Here he is at the Cambridge Science Festival.

JOHN DOLHUN: OK. So what I'm going to do is I'm going to pour three colorless solutions into this beaker. Solution number one, and I'm going to use kitchen chemistry, so I'm using my eye here. Let me just see. OK, there we are.

Second solution. And the third solution.

JESSICA HARROP: So what happened? Dr. Dolhun mixed three clear, colorless solutions together. The first solution contains potassium iodate and sulfuric acid dissolved in water. The second solution is malonic acid and manganese sulfate monohydrate in water. And the third is hydrogen peroxide in water.

And when mixed together, things get complicated. The overall reaction is this. So iodate, hydrogen peroxide, malonic acid in the presence of sulfuric acid, reacts to produce this compound-- oxygen and water.

But think about the reaction this way. It's equivalent to saying that metal and plastic react to produce a bicycle. In reality, there are many steps that occur between those raw materials and the finished result.

And the Briggs-Rauscher Reaction is similar. Here are the many subreactions that occur to get from the reactants to the products. What we see is a cycle from colorless to amber to dark blue. And as these reactions run, the relative amounts of the reactants and the products dictate the color of the solution.

I2 is amber. I minus is colorless. And I3 minus is deep blue when it interacts with starch in the solution. Triiodide is formed when iodine and iodide interact. And this cycle continues until all the reactants are used up. Hope you enjoyed the video and I'll see you next time.