Elephant’s Toothpaste – Kid Version

A kid-safe version of the classic Elephant's Toothpaste

This is a kid-safe version of the popular Elephant’s Toothpaste demonstration using common household materials. A child with a great adult helper can safely do this activity and the results are wonderful.


  • 16 oz empty plastic soda bottle (preferably with a narrow neck such as those made by Coca-Cola)
  • 1/2 cup 20-volume hydrogen peroxide (20-volume is 6% solution, purchased from a beauty supply store)
  • Squirt of Dawn dish detergent
  • 3-4 drops of food coloring
  • 1 teaspoon yeast dissolved in approximately 2 tablespoons very warm water
  • Funnel
  • Foil cake pan with 2-inch sides
  • Safety glasses
  • Lab smock

Watch the video.



1.Have students put on their safety glasses and lab smock.  Each student should have in front of them a cake pan, plastic bottle, Dawn in small cup, food coloring, 1/2 cup peroxide, and the dissolved yeast mixture.


2. Stand the bottle up in the center of the cake pan. Put the funnel in the opening. Add 3-4 drops of food coloring to the peroxide and pour the peroxide through the funnel into the bottle. Show a water molecule diagram and a peroxide molecule diagram, pointing to the extra oxygen that will be set free in the reaction.


3. Add the Dawn detergent to the bottle.


4. Add Peroxide to the bottle.


5. Pour the yeast mixture into the bottle and quickly remove the funnel.


6. Try different colors to add more fun to this experiment.

How Does It Work?

Talk about the addition of the yeast as a catalyst, which makes the peroxide molecule release the oxygen atom faster. The teacher who submitted this experiment claims to have done this with hundreds of students from kindergarten through fifth grade and some adults who all loved the experiment. It is very easy and safe to do again at home using regular hydrogen peroxide from the drugstore.


The reaction creates foam that shoots up out of the bottle and pools in the pan. After a minute or so, it begins to come out in a moving stream that looks like toothpaste being squeezed out of a tube. The students can play with the foam as it is just soap and water with oxygen bubbles. The bottle will feel warm to the touch as this is an exothermic reaction.