The electro-magnetic spectrum. Key facts All the waves travel at the same speed – around 300 000 km/s.

The electro-magnetic spectrum

Key facts

All the waves travel at the same speed – around 300 000 km/s

Key facts

All the waves travel at the same speed – around 300 000 km/s

All the waves are transverse waves

Key facts

All the waves travel at the same speed – around 300 000 km/s

All the waves are transverse waves

All the waves can be reflected and refracted

Key facts

All the waves are transverse waves All the waves can be reflected and refracted

The longest waves are the radio waves

Key facts

All the waves can be reflected and refracted The longest waves are the radio waves

The shortest waves are the gamma waves

Key facts

The longest waves are the radio waves The shortest waves are the gamma waves

The shorter the wavelength, the higher the frequency

Key facts

All the waves travel at the same speed – around 300 000 km/s

All the waves are transverse waves All the waves can be reflected and refracted The longest waves are the radio waves The shortest waves are the gamma waves The shorter the wavelength, the higher the

frequency

Key facts

The shorter the wavelength the more dangerous the wave!!!!!!

Key facts

All waves shorter than visible light can cause cancer.

UV - light - sun burn and skin cancer X-rays can cause cancer (that is why the

dentist leaves the room when she X-rays your teeth)

Gamma rays are the most dangerous – they can kill ALL living things and cause cancer.

We are bombarded by gamma rays coming from the sun every day!

Digital and Analogue Signals

Using optical fibres

Using optical fibres

Light and infrared radiation can be sent down an optical fibre.

One optical fibre cable can carry 40 000 telephone calls at the same time!

Using optical fibres

Advantages of optical fibres

Light can travel round corners in an optical fibre. So unlike a microwave transmission it is not restricted to travelling in a straight line.

Using optical fibres

Advantages of optical fibres

Light passes along an optical fibre with very little energy loss. Unlike a copper cable the signal does not need frequent amplification.

Digital and analogue signals

Digital and analogue signals

Digital signals can be sent down optical fibres

A digital signal can only have certain values, usually 0 or 1

An analogue signal carries information by continuously changing its amplitude or frequency.

Digital and analogue signals

Noise distorts all signals during transmission. It cannot be removed from analogue signals.

Digital signals can easily be restored to their original condition.

This gives digital signals clearer sound and pictures.

Digital and analogue signals

A CD is a digital recording system.

Digital and analogue signals

A vinyl record is an analogue recording system.