What would life be like without colour?

10.4 Colour!

Colour moodsDifferent colours can affect how we feel:• RED can make people angry• ORANGE is a happy colour• YELLOW is a cheerful colour• GREEN is calming• BLUE is a cool but restful colour

Do you agree? Write a list of colours at the back of your books and next to them, write what they make you feel.

How do these colours make you feel?

Learning OutcomesToday you will:1.Draw a diagram to show the different colours that make up white light

2.Plan and carry out a presentation about how the different theories of what makes up white light

Memorise these. You have 30 seconds. GO!Today you will:1.Draw a diagram to show the different colours that make up white light

2.Plan and carry out a presentation about how the different theories of what makes up white light

What was Learning Outcome 2?

What was Learning Outcome 2?

2. Plan and carry out a presentation about how the different theories of what makes up white light

Lesson ObjectiveTo be able to explain how white light can be dispersed into 7 different

colours, according to their wavelengths.

Let’s watch a demo.What colour is the light that we see

‘come out’ of a light bulb?

What colours do we see in a rainbow?

10.4 Dispersing light

Breaking up white lightYou’ve just seen how a prism can break up white light into 7 colours.

This breaking up of white light is called dispersion. The prism disperses the light.

Dispersion

KEY WORD ALERT!


ColoursThis breaking up of white light is called dispersion. The prism disperses the light.

When white light is broken up like this the 7 colours are always in the same order.

REDORANGEYELLOWGREENBLUEINDIGOVIOLET

top

bottom

Dispersion


ColoursHow can you remember the order?

There’s the famous spy:ROY GBIV

Or a defeated British king:Richard Of York Gained Battle In Vain

See if you can think of your own.

ROY GBIV


ColoursYou can see the order in this rainbow.

Rainbows


Why does light disperse like this?Remember that light is a wave.

The size of a wave is measured from one peak to the next and is called its wavelength.

wavelength

KEY WORD ALERT!

Wavelengths


Why does light disperse like this?White light is made up of all the colours of the rainbow.Each colour has its own wavelength.Red has the longest and violet has the shortest wavelength.

Wavelength and Dispersion

CAN SOMEONE

PLEASE SHOW ME WHERE I WOULD

MEASURE THE

WAVELENGTH ON THESE

DIAGRAMS?


Why does light disperse like this?When light enters a glass prism it slows down.But the shorter wavelengths slow down most and so bend more sharply.Blue is a short wavelength.Red is the longest one.

Wavelength and Colour


Why does light disperse like this?As each wavelength, or colour, slows down at a different rate it therefore has a different angle of refraction to the rest.This means the different colours spread out.REMEMBER! Blue bends best.

KEY PHRASE ALERT!

Blue Bends Best


Why does light disperse like this?The shape of the prism means they spread out even more on leaving the prism.

You may see a small spectrum with a rectangular glass block but the colours do not spread out as much.

KEY WORD ALERT!

Spectrum of Colour

IN YOUR BOOK, COPY AND COMPLETE THE DIAGRAM ABOVE TO SHOW WHITE LIGHT

DISPERSING INTO IT’S 7 COLOURS. COLOUR IN THE SPECTRUM ON THE RIGHT TO SHOW THE

SPECTRUM OF COLOUR. REMEMBER: ROYGBIV!

SWAP BOOKS, LOOK AT THE ANSWER ABOVE, AND GIVE YOUR PARTNER TWO STARS AND A

WISH.STARS = WHAT WENT WELL

WISH = WHAT THEY COULD IMPROVE FOR NEXT TIME

Let’s watch a demo.So we know how to split white light

into it’s seven colours.

Can we turn these colours back into white light?

How?


Recombining coloursWhen a second prism is added ‘upside down’ the dispersion of the second prism is in the opposite direction to the original dispersion.White light is formed again.

Making white light again


Recombining coloursLook carefully. The two triangular prisms form a parallel-sided glass block.

We didn’t see dispersion when we passed a ray of light through a rectangular glass block.



Spinning discThe image stays on the retina at the back of the eye for about 1/10 of a second.When the disc spins very fast all the colours of the rainbow appear on the retina together.The colours all combine to form white light.


What would life be like without colour?

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