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Electricity at home

In our homes, we get some of our energy from batteries and some from the mains. But what's the difference?

What you’ll learn about

Batteries

Batteries are great for powering electrical appliances that need less energy and that need to be portable - we need to be able to carry them around. Things like mobile phones and torches are all powered by battery.

Batteries use chemicals to store energy

When you turn on a torch, the energy stored in the chemicals inside the battery are transferred to the bulb by an electric current. The bulb then causes the energy to be transferred to the world around us by heat and light.

Just like electric current, heat and light are ways in which energy can be shifted from one place to another.
The chemical reactions in the battery don't last forever. As they begin to stop, less energy will be available and soon the battery will not be able to produce an electric current. We usually say the battery will 'run out' - it will 'go flat'.

Never open batteries. The chemicals are nasty and you could get burnt.

Mains electricity

Mains electricity is great for all sorts of important things that require lots of energy.

  • Lighting and heating
  • Fridges and freezers
  • Ovens and cooking hobs
  • Washing machines and tumble dryers
  • Televisions, computers and games consoles

You can find out more about how electricity is generated in the Over 11's area.

Build your own electrical circuits!

How much do you know about electrical circuits? Test your knowledge by trying out our circuit builder game.

Circuit Builder

What is electricity

What is electricity?

Conductors & insulators

Conductors and insulators

More lessons in this series

Lesson 1

Lesson 1

What is electricity?

Lesson 3

Lesson 3

Conductors & insulators

Lesson 4

Lesson 4

Using electricity safely

Quick tips about electrical safety

  • Safe Plug
    Overloaded Plugs
    Poke Fingers In Socket
    Underground Cables
    Fishing Near Wires
    Toaster And Knife
    Check For Wires
    Kite In Lines
    Building Site
    Pylon
    Keep Sockets Dry
    Climb In Substation
    Climbing Trees
    Cutting The Grass
    Derelict Building
    Broken Streetlight
    Live Railway
    Untidy Wires
    Plug In Bathroom

    Dangerous situations

    To stay safe, make sure you switch off the electricity before you plug in or unplug anything.

    Never plug too many electrical appliances into one socket. The wires may overheat and catch fire.

    Never poke things into electric sockets - you could easily be electrocuted.

    Cables buried under road or footpaths could be carrying electricity and could kill you.

    Never go fishing near overhead lines. Electricity might be carried down the fishing line back to you. You could be electrocuted.

    Never poke things into electric toasters. The wires inside are uninsulated - you could easily be electrocuted.

    Electric cables are often hidden behind walls. Make sure you know what is behind it using a cable detector from a DIY shop.

    Never fly a kite near an overhead line. Electricity might be carried down the string back to you.

    Building sites often have a live electricity supply. Do not go near them or you could get hurt or be killed.

    Do not climb pylons or wooden poles, electricity can jump gaps if you get too close. Also, graffiti can cover warning signs and put others at risk.

    Always keep electrical appliances away from water. Water conducts electricity - you could easily be electrocuted

    Never climb into electricity substations or poke sticks through the fence. The high voltage electricity could kill you.

    Before you climb any trees, always check there are no overhead lines nearby. If you get too close to an overhead line, you could be electrocuted.

    Take extra care when mowing the grass with an electric lawn mower. If you damage the wire, you could be electrocuted.

    Never play in derelict buildings - the electricity supply may not have been disconnected. You could be electrocuted.

    Never touch exposed wires inside streetlights. You could be electrocuted.

    Never play on or around railway lines, they carry high voltage electricity and you could be seriously hurt or killed.

    Untidy wires might be tripped over or get damaged. Always make sure they are kept tidied away.

    Never take electric appliances into the bathroom. Water conducts electricity - you could easily be electrocuted.

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  • Sun Radiates The Earth
    Coal Power Station
    Volta2
    First Battery
    Thomas Edisson Inventor
    Pylon Including Sub

    Did you know?

    In 15 minutes, the sun radiates as much energy onto Earth as all the people on the planet during an entire year. Just imagine if we could channel the sun's energy effectively!

    In August 1887 the London Electric Supply Corporation commissioned Ferranti to build the first power station. Today our electricity supply is still based on the system that Ferranti designed.

    What is a volt? And why is it called a volt? The volt measures electromotive force. It was named after the Italian inventor Alessandro Volta (1745-1827)

    In the 1780s, Alessandro Volta invented the first battery - all because of Luigi Galvani's experiments with dead frogs.

    Thomas Alva Edison 1847-1931 is one of the most successful inventors ever, applying for over 1,300 patents by 1910, mainly to do with electrical or mechanical development.

    High voltage electricity is carried across the country by pylons and 'stepped down' for domestic use at substations. The National Grid supplies electricity all over the country.

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