Balloon survives the flame science experiment | Fizzics Education

# Balloon survives the flame

You will need:

One candle

Matches

Balloon filled with water

A small plate

Water

1

Light the bottom of the candle and allow the wax to melt. Then stick the candle onto the plate.

2

Fill a balloon with water and tie its end. Make sure that you keep the balloon fairly small to avoid stretching the rubber too much.

3

Light the candle and place the balloon over the flame so that the flame touches the balloon.

4

Slowly count to ten and then remove the balloon from the flame. It should not have popped.

5

Try the same experiment with a balloon filled with air. It should pop straight away. Or try holding the water balloon over the flame for a longer period of time. Will it eventually pop?

### Why Does This Happen?

You’ll find that you can run this for quite a while longer than the air-filled balloon purely because the water will continue to absorb the heat from the flame. So, how long could you run this? Well, it really depends on how much water you have in the balloon as well as the quality of the rubber balloon itself. Try varying the levels of the water in the balloon and see how long your experiment can last!

BTW; whilst the water balloon survives the flame, the water inside the balloon will start to cycle around and around due to convection. Convection is the movement of either gases or liquids due to uneven heating causing density changes that drive movement. How does this convection work in the balloon then?

– Warmer water rises due to the water expanding and becoming less dense than the surrounding colder water.

– As the warmer water rises, the surrounding colder water moves underneath to replace the warm water.

– Once the warmer water reaches the top of the balloon it is away from the flame… so it contracts as it cools down. This contraction makes this water denser and so this water moves down again.

– In the meantime… the water that had moved near the candle flame also heats up and expands & rises… and the process keeps repeating as a continual circular motion of water within the balloon!