You will need a plastic comb, a clean head of hair and a tiny piece of paper or tissue (about 1/2cm in size).
Comb your hair vigorously, and then bring the comb close to but not touching the paper. Watch what happens.
This is a static electricity experiment and is best done on a very dry day. Electrons have been rubbed off one object onto the other. This leaves one object with a positive charge and the other object with a negative charge. Opposite or unlike-charged objects attract. You can repeat the experiment and bring the comb close to a fine stream of running water, and it will attract the water. You can also attract rice bubbles at the breakfast table while you get ready for school.
You will need a clean head of hair and 2 drinking straws.
With a straw in each hand, rub the straws vigorously in your hair for a few minutes. Hold the straws lightly by their ends so that they are hanging close to each other but not touching. Watch them move.
The straws have the same electric charge so they will repel each other. Static electricity experiments like this are best done on a very dry day.
You can use balloons instead of straws, and a woollen jumper instead of your hair.
Make a Lemon Battery
Gently squeeze the whole lemon to make it juicier inside. Poke the two different metal or graphite electrodes into the lemon. Attach the wires to the electrodes and also to the light bulb to make a circuit. The light bulb should glow.
This is an electric cell that produces electricity. It is made from two electrodes of different types (i.e. different metals or graphite) and an electrolyte solution (the lemon juice). Try this using lemon juice in a jar instead or using a whole potato.
Make Electricity in your Mouth
Find a person who has the older darker mercury-containing tooth fillings. Ask them to put a piece of aluminium foil over the filling and bite down on it. They should feel a slight zap! (Do not do this to a person with a heart condition.)
When two different metals (electrodes) are placed in a salty solution such as saliva (electrolyte), they form a simple electric cell and will generate a small amount of electricity.
Series and Parallel Circuits
Wire up a series circuit with only one bulb. Then wire up a series circuit with two bulbs. What do you notice about the brightness of the bulbs?
Now wire up a parallel circuit with two bulbs. What do you notice?
The bulbs in the series circuit get dimmer, but when wired into the parallel circuit, they stay equally bright. Our homes and buildings are wired in parallel not in series.
Make a small loop in one of the wire coathangers. Make the second wire coathanger an obstacle course by winding it in all sorts of directions. Set up the apparatus as in the diagram, making the second wire coathanger obstacle course as sturdy as possible in to base board.
Now try to move the loop along the obstacle course without making contact.
If you make contact, you will be completing the circuit and the light bulb will glow.
Wiggling Light Bulb
You will need an incandescent light bulb and a magnet (e.g. a bar magnet or a strong refrigerator magnet).
Turn on the light bulb. Hold the magnet close to the glass bulb and watch the wire filament wiggle.
The AC (Alternating Current) has a frequency of 60 cycles per second, and this is how fast you are seeing the filament wiggle.