The Electromagnetic Spectrum

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The Electromagnetic Spectrum 1 of 19 Boardworks Ltd 2016

The Electromagnetic Spectrum 2 of 19 Boardworks Ltd 2016

Detecting waves beyond the visible spectrum 3 of 19 Boardworks Ltd 2016

Invisible light 4 of 19 Boardworks Ltd 2016 It has long been known that when sunlight passes through a prism it is split into its component colours. This effect is called dispersion. In 1800, Sir Frederick William Herschel placed a thermometer next to the red light refracted through a prism. To his surprise the thermometer read a higher temperature than the rest of the spectrum. This lead to the idea of an invisible form of light beyond red in the spectrum. This was to be called infrared. sunlight visible light infrared

5 of 19 Boardworks Ltd 2016 Looking for cooling rays In 1801, a German scientist called Johann Wilhelm Ritter heard about Herschel s discovery of infrared heating rays. He thought there must be an opposite cooling ray and set out to find it. Silver chloride is a chemical which decomposes when exposed to light. Ritter confirmed the common belief that violet was more effective than red in this. He then went on to show another invisible kind of radiation was even faster. He called this radiation chemical rays. This was changed to the term we use today ultraviolet. sunlight ultraviolet visible light infrared

The Electromagnetic Spectrum 6 of 19 Boardworks Ltd 2016

What are electromagnetic waves? 7 of 19 Boardworks Ltd 2016 What is the connection between light, microwaves and X-rays? They are all different types of electromagnetic radiation that travel as waves and transfer energy from the source of the waves to an absorber. For example, energy from the Sun is transferred by electromagnetic waves to the Earth. magnetic field electric field wave direction Electromagnetic waves are transverse waves made up of electric and magnetic fields. All electromagnetic waves travel at the same speed in a vacuum (such as space): the speed of light (300,000,000 m/s).

Properties of waves 8 of 19 Boardworks Ltd 2016 The properties of waves are basically determined by their reflection, transmission and absorption by different materials. When absorbed, waves can interact in very interesting ways which make them suitable for different applications. For example, visible light waves interact with special receptor cells at the back of human eyes which go onto produce electrical signals that can be interpreted by the brain.

Changing frequency 9 of 19 Boardworks Ltd 2016 The frequency/wavelength of the electromagnetic wave will affect its properties. The waves can be categorised according to these properties. radio waves microwaves infrared visible light UV X-rays gamma rays 10 m 10 cm 1 mm 0.01 mm 100 nm 1 nm 0.01 nm

Are electromagnetic waves dangerous? 10 of 19 Boardworks Ltd 2016 The shorter the wavelength (and higher the frequency) of electromagnetic waves, the more energy that they carry. radio waves microwaves infrared visible light UV X-rays gamma rays 10 m 10 cm 1 mm 0.01 mm 100 nm 1 nm 0.01 nm energy increases hazard increases High-frequency electromagnetic waves, such as gamma rays, are potentially more harmful because they have more energy.

Frequency matters 11 of 19 Boardworks Ltd 2016 The frequency of an EM wave will determine whether it can be: transmitted through glass (for example, visible light can be transmitted through glass but ultraviolet cannot) reflected by objects (green light is reflected by leaves, but no other light is reflected) absorbed by water (microwaves are absorbed by water, but radio waves are not).

How do electromagnetic waves differ? 12 of 19 Boardworks Ltd 2016 Different electromagnetic waves carry different amounts of energy. For example, X-rays carry more energy than visible light, ultraviolet or infrared rays. The amount of energy carried by an electromagnetic wave depends on the wavelength: the shorter the wavelength, the higher its energy. Wavelength and frequency are linked properties of a wave: the shorter the wavelength, the higher its frequency. So, frequency also tells you about the energy of a wave: the higher its frequency, the higher the energy.

The electromagnetic spectrum 13 of 19 Boardworks Ltd 2016

The electromagnetic spectrum 14 of 19 Boardworks Ltd 2016 How many different electromagnetic waves can you spot?

Wavelength of electromagnetic waves 15 of 19 Boardworks Ltd 2016

The Electromagnetic Spectrum 16 of 19 Boardworks Ltd 2016

Glossary 17 of 19 Boardworks Ltd 2016

Anagrams 18 of 19 Boardworks Ltd 2016

Multiple-choice quiz 19 of 19 Boardworks Ltd 2016

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