Curious Kids is a series for children. If you have a question you'd like an expert to answer, send it to firstname.lastname@example.org You might also like the podcast Imagine This, a co-production between ABC KIDS listen and The Conversation, based on Curious Kids.
Electricity is all around us. Maybe some of the toys you play with run on batteries, which have electricity stored in them. You or your parents are reading this article on a computer, phone or tablet, all of which use electricity. The light bulbs, the television, the traffic lights, cars, aeroplanes - they all run on electricity. Electricity is exciting and important, so I am glad you asked this excellent question.
Everything is made from atoms
Everything is made from little tiny things called atoms. They are so small we cannot see them. They are much smaller than chickpeas, rice, ants, and ant eggs.
Because atoms are so small, we need a lot of them to make things. For example, a grain of rice has billions and billions and billions of atoms. Those atoms make up the rice, in the way LEGO pieces make up a LEGO car or house. They atoms click together and hold onto each other.
Even though an atom is extremely small, it is also made from even smaller things.
One of the things that make up the atom is called an "electron". Electrons have many jobs. Some electrons help the atoms hold onto each other. Scientists call these electrons the "bonding electrons". Bond means to stick together.
Other electrons just keep running around in the atoms. They are free electrons and they're always on the move. Sometimes, they can move from one atom to another.
Electricity happens when electrons move from one atom to another.
Electricity in the power cable
So, the story so far: we know there are billions and billions and billions of atoms. There are also billions and billions and billions of electrons in everything around you. A leaf, a plastic cup, your pet - they all have electrons. Some things, like metals, have more free electrons than other things. A plastic cup, for example, doesn't have as many free electrons.
You probably have a lot of power cables at home. They might be plugged into the TV or computer or a phone charger. Power cables have a huge number of free electrons.
When the free electrons in a power cable move from one atom to another, almost all in the same direction, you get something called an "electric current" running through the power cable.
How do we push the electrons through the cable? Adults do that by plugging the cable into a wall socket.
Remember, electricity can be very dangerous and can even kill people, so it's important that kids just let adults handle the cables and wall sockets.
The socket makes a thing called "voltage", which is like an invisible force that pushes all the electrons in the same direction down the cable.
Once the cable is plugged into the socket, the socket pushes the electrons inside the cable, like cars moving down lots of lanes in a highway. The electrons inside the cable then keep pushing each other forward (and sometimes back and forth depending on the type of electricity). This creates an electric current inside the cable.
The cables have a kind of jacket (which we call "insulation") on the outside to keep the electrons moving along the metal safely. These jackets make it safe for us to use electricity by keeping them in the metal.
But where does electricity come from?
Electricity comes from power stations - great, big places that can make electricity in different ways.
One way is by burning coal. But this way is bad for our environment. Some power stations use the light from the Sun to make electricity, using large solar panels. Or they might use wind, or water to make electricity. These methods are not as bad for our environment.
If you're interested in learning more about how electricity is made, check out this Curious Kids article over here.
Hello, curious kids! Have you got a question you'd like an expert to answer? Ask an adult to send your question to email@example.com Please tell us your name, age and which city you live in. We won't be able to answer every question but we will do our best.
Author: Sherif Abbas - Research Fellow, RMIT University