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STATIC ELECTRICITY. Have you ever stuck a balloon to the wall after rubbing it on your head? Have you ever stuck a balloon to the wall after rubbing it.

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Presentation on theme: "STATIC ELECTRICITY. Have you ever stuck a balloon to the wall after rubbing it on your head? Have you ever stuck a balloon to the wall after rubbing it."— Presentation transcript:

1 STATIC ELECTRICITY

2 Have you ever stuck a balloon to the wall after rubbing it on your head? Have you ever stuck a balloon to the wall after rubbing it on your head? Has your sweatshirt ever made crackling noises when you took it off? Has your sweatshirt ever made crackling noises when you took it off? Have you ever got an electric shock off your door knob? Have you ever got an electric shock off your door knob? Have you ever seen lightening? Have you ever seen lightening?

3 All these things happen because of Static Electricity

4 What is Static Electricity? Static electricity occurs when there is a build up of electric charge on the surface of a material. Static electricity occurs when there is a build up of electric charge on the surface of a material. It is called static electricity because the charges don’t move. It is called static electricity because the charges don’t move. The electricity we use everyday involves moving charges. The electricity we use everyday involves moving charges.

5 What is charge? To understand charge we have to look at things on an extremely small scale. To understand charge we have to look at things on an extremely small scale. We have to try and understand things that we can’t even see with the most powerful microscope. We have to try and understand things that we can’t even see with the most powerful microscope. Atoms!

6 What is inside the atom? The atom is made of 3 sorts of particles. The atom is made of 3 sorts of particles. The electron The proton The neutron We can imagine each as a tiny little ball. We can imagine each as a tiny little ball.

7 Charge The electron is negatively charged. The electron is negatively charged. The proton is positively charged. The proton is positively charged. The neutron has no charge, it is neutral. The neutron has no charge, it is neutral.

8 How do charges behave? What do you know about magnets? What do you know about magnets? 2 north poles will repel each other, but a north and a south put together will attract one another. 2 north poles will repel each other, but a north and a south put together will attract one another. Law of Attraction and Repulsion Law of Attraction and Repulsion opposites attract, likes repel. opposites attract, likes repel.

9 How do charges behave? Exactly the same thing happens with charges. Exactly the same thing happens with charges. 2 positive charges put together will repel each other. 2 positive charges put together will repel each other. Put a positive charge near a negative charge and they will attract each other. Put a positive charge near a negative charge and they will attract each other. A charged object may even attract a neutral one. A charged object may even attract a neutral one.

10 Static electricity Static electricity is caused when certain materials are rubbed against each other. Static electricity is caused when certain materials are rubbed against each other. Electrons can be rubbed off one material and on to another. Electrons can be rubbed off one material and on to another. The material that has got extra electrons is now negatively charged The material that has got extra electrons is now negatively charged The material which has lost electrons is positively charged. The material which has lost electrons is positively charged.

11 Seeing the effects of charge: the electroscope the electroscope is a simple device for observing the presence of electric charge the electroscope is a simple device for observing the presence of electric charge it consists of a small piece of metal foil (gold if possible) suspended from a rod with a metal ball at its top it consists of a small piece of metal foil (gold if possible) suspended from a rod with a metal ball at its top If a negatively charged rod is placed near the ball, the electrons move away because of the repulsion. The two sides of the metal foil then separate.

12

13 + + + + + + + + + + - - - - - - -- - -

14 + + + + + + + + + + - - - - - - -- - -

15 + + + + + + + + + + - - - - - - -- - -

16 + + + + + + + + + + - - - - - - -- - -

17 + + + + ++ - - - - - - -- - - + ++ +

18 Static electricity It is this imbalance of positive and negative charges that causes: It is this imbalance of positive and negative charges that causes: Balloons to stick to walls. Balloons to stick to walls. Your hair to stand on end when brush your hair on a dry day. Your hair to stand on end when brush your hair on a dry day. And the electric shock you sometimes get from the door handle. And the electric shock you sometimes get from the door handle.

19 Making Sparks: The Van de Graff Generator The van de Graff generator is a device for building up a large electrical charge on a metal sphere. The van de Graff generator is a device for building up a large electrical charge on a metal sphere. The charge is generated by friction between a rubber belt and a roller. The charge is generated by friction between a rubber belt and a roller. the charge on the belt is transferred to the sphere by a brush. the charge on the belt is transferred to the sphere by a brush.

20 Danger High Voltage ! The van de Graff can charge the sphere to 50,000 volts! The van de Graff can charge the sphere to 50,000 volts! This is enough to cause discharges to the surrounding air This is enough to cause discharges to the surrounding air The sparks excite air molecules which give off light The sparks excite air molecules which give off light

21 Conductors and Insulators In conductors, electric charges are free to move through the material. In insulators, they are not. In conductors, electric charges are free to move through the material. In insulators, they are not. In conductors: In conductors: The charge carriers are called free electrons The charge carriers are called free electrons Only negative charges are free to move Only negative charges are free to move When isolated atoms are combined to form a metal, outer electrons of the atoms do not remain attached to individual atoms but become free to move throughout the volume of the material. When isolated atoms are combined to form a metal, outer electrons of the atoms do not remain attached to individual atoms but become free to move throughout the volume of the material. Revisit thermal energy what type of materials were good conductors of thermal energy? Revisit thermal energy what type of materials were good conductors of thermal energy?

22 Conductors and Insulators Conductors: Allow a free flow of electrons. Ex. Metals (the wire inside an electrical cord) Insulators: Slow or stop the flow of electrons. Ex. Rubber, Glass, Plastic (the rubber coating on the outside of an electrical cord)

23 What causes lightning? Lightning is actually just static electricity on a much larger scale. Lightning is actually just static electricity on a much larger scale. The rubbing is caused by air moving around The rubbing is caused by air moving around In thunderclouds bottom is usually negative and top is positive. In thunderclouds bottom is usually negative and top is positive.

24 Interesting facts Lightning bolts can travel at speeds of up to 60,000 miles per second. Lightning bolts can travel at speeds of up to 60,000 miles per second. Every second around 100 bolts of lightning strike the Earth. Every second around 100 bolts of lightning strike the Earth. One lightning bolt has enough electricity to power 200,000 homes. One lightning bolt has enough electricity to power 200,000 homes. You are more likely to be struck by lightning than be eaten by a shark. You are more likely to be struck by lightning than be eaten by a shark.


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