Bubble geometry experiment to try with your child
Welcome to the Parents' Toolkit
A soap bubble is simply a very thin sheet of soapy water called a soap film surrounding a volume of air.
A force called surface tension pulls the soap film tight, so that it always has the minimum surface area possible. That's why a free-floating bubble always forms a sphere.
This experiment, brought to you in partnership with the Science Museum Group, is a fun and easy way to help your child understand the science behind shapes and their properties.
As this activity involves lots of water, you should do it in a place you don't mind getting wet and that you can clean up easily afterwards. Doing it outside is doable but even a small amount of wind might affect the bubbles that you make!
Instructions for you and your child to follow...
You will need
- Washing up liquid
- Warm water
- Scissors
- A protractor (you could print our template here)
- Bucket or a large bowl
- Sugar
- Clear plate or a clear lid
- Five straws (with four straws cut into three even pieces)
- Nine pipe cleaners
Let's get started
Step 1
Add 3/4 of a mug of sugar and a whole mug of washing-up liquid to 3/4 of a bucket of warm water and stir the mixture slowly for a minute or two.
Step 2
Slide the protractor underneath the clear lid or plate. Lightly coat the surface of the lid with bubble mix, dip the straw into it and slowly blow bubbles.
Step 3
Move the lid, so you can measure the angles of the bubbles on the protractor.
Have a look at the bubbles. "Are all of the angles the same?" "Can you blow a bubble inside another bubble?"
Did you know... whenever two or more bubbles meet, the angle between them will always be exactly 120 degrees?
Now to make a cube bubble
Step 4
To make a cubic frame, fold a pipe cleaner to give it three loops. Put one piece of straw on each loop.
This becomes one corner of the cube.
Step 5
Make seven more pipe cleaner corner pieces, and attach more straw pieces to complete the cube.
Step 6
Dip the frame fully into the solution. Gently pull it out and blow a bubble in the middle with a straw.
Maths in your world
The hexagon pattern seen in honeycomb works in the same way as how bubbles connect – always at 120 degrees. The honeycomb connects using the least amount of wax.
The Science Museum Group is a group of museums in the UK who share objects, stories and hands-on activities to engage more people in science, technology, engineering and maths.
Images © Science Museum Group
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