1. Static Electricity 4 th form IGCSE Textbook: Chapter 8, p. 66

3. Static Electricity? Until it discharges...

4. So what is Lightning? Slow motion view A flow of electric charge - current But where did the charge come from?

5. Reminder: Conductors and Insulators Good conductors allow charges to flow through them easily – Usually metals If a conductor becomes charged there tends to be a flow of electricity to earth to neutralise it Good insulators do not allow charges to flow easily – Plastic, rubber, glass, wood, ceramic etc If a charge builds up on an insulator, it will stay there

6. How do you charge something up? To create a static charge we need to add or remove some electrons – Remember the protons are stuck in the atomic nuclei and can’t move We can do this in a variety of ways: – Connecting to an electrical supply – Introducing another charged object – Squashing some materials – Heating some materials – Or just by rubbing electrons on or off!

7. Triboelectricity From greek τριβή: friction First recorded by Thales of Miletus (c 600BC) Amber (greek name: elektron) charges up when rubbed with wool In general, when two different materials come in contact, some charge is transferred from one to the other – Effect is increased by rubbing

8. Triboelectric Series

9. Charging with friction Rubbing one material with another transfers some electrons. Which material gains electrons and which loses them depends on their positions in the series. Why does this need to be insulated from its surroundings?

10. Friction charges water and ice particles Charge builds up in the cloud It is insulated from its surroundings – static electricity Lightning animation

11. Lightning facts There are 44 lightning flashes/second on Earth Only 20% of these are to the ground Kikufa, Congo, receives the most strikes per year at 158/km 2 Lightning travels at 130,000 mph and can reach temperatures of 30,000°C Annual world deaths due to lightning strike are estimated at 24,000

12. Experiment Charge a rod by rubbing it. Hang it in a stirrup, making sure it doesn’t touch anything. Charge another rod of the same material and bring it close to the charged end of the suspended rod. What happens? Repeat with different materials, record what you find. Can you draw any conclusions?

13. Forces between charges Objects with the same charge repel each other Objects with opposite charges attract each Action at a distance

14. What’s happened to this boy?

15. Van der Graaf Generator A convenient way to build up a store of static electricity Charges are transferred up the belt to the metal dome

16. Force between charges and uncharged objects A charged object always attracts an uncharged object. Can you explain why?

17. Force between charges and uncharged objects The uncharged object stays uncharged, but the electrons are attracted to or repelled from the charged object This leaves the opposite charge near the surface. So the two objects attract one another

18. The same process explains why balloons stick to the wall. Water bends because it is a polarised molecule applet

19. The gold leaf electroscope A simple device to detect electric charge Metal plate, rod and leaf are insulated from surroundings Initially electrons are spread evenly throughout neutral electroscope If a charged object comes close the electrons move and the leaf rises

20. Charging an electroscope The leaf rises if a charged object comes near, but falls when it moves away. If the charged object touches the metal plate electrons can flow on or off the electroscope, leaving it charged – The leaf remains up How could you discharge it?

21. Charging by induction You can use a charged object to separate the charge and then add or remove electrons from earth to charge the electroscope.

23. Static dangers Lightning is a static discharge. Lightning conductors are used to protect buildings Static on hands can damage sensitive electronics. An earthing strap must be worn. Static builds up on aeroplanes as they fly. Planes must be properly earthed before refueling. Also applies to petrol stations

24. Static dangers When powders are pumped through pipes they can build up a static charge by friction. If the pipe is not earthed this can produce a spark and cause an explosion.

26. Applications of static electricity By creating opposite charges on paint particles and the target, spray paint is attracted to the target, improving even coverage and reducing wastage. Demo film

27. Applications of static electricity Ink in an inkjet printer is given a charge. It can then be directed onto the right spot on the paper by varying the charge on metal plates as it flies through the air.

28. Applications of static electricity Static is used to selectively stick toner where it is required to the photocopier drum Animation Secret life video

29. Applications of static electricity An electrostatic precipitator can remove ash particles from smoke in a chimney, reducing pollution.

30. Students will be assessed on their ability to: 2.20 identify common materials which are electrical conductors or insulators, including metals and plastics 2.21 recall that insulating materials can be charged by friction 2.22 explain that positive and negative electrostatic charges are produced on materials by the loss and gain of electrons 2.23 recall that there are forces of attraction between unlike charges and forces of repulsion between like charges 2.24 explain electrostatic phenomena in terms of the movement of electrons 2.25 recall the potential dangers of electrostatic charges, eg when fuelling aircraft and tankers 2.26 recall some uses of electrostatic charges, eg in photocopiers and inkjet printers.