Radio waves, microwaves, IR and visible light are non–ionising EM radiation. They can harm cells by heating.
Radio waves and microwaves are used for long distance communication, broadcasting and data transmission.
Microwaves are absorbed by water, so can be used to cook food from within. IR radiation cooks the surface of food.
IR is used for heating and thermal imaging. Visible light and IR are used for data transmission in optical fibres.

Common misconception

The majority of pupils struggle to differentiate between ionising and non–ionising radiation.

Explicitly teach that non–ionising radiation is not able to force electrons off atoms – it cannot turn atoms into ions. What it may be able to do is cause heating by increasing the movement of particles and therefore temperature of the substance.

Keywords

Frequency - The frequency of a wave means the number of oscillations occurring per second, which is the same as the number of waves arriving per second.
Non-ionising - Radio waves, microwaves, infrared and visible light are non–ionising electromagnetic waves, as they cannot remove electrons from atoms.
Heating - Any process that transfers energy because of a temperature difference, or causes a temperature rise, can be called heating.
Antenna - An antenna is a metal structure designed to emit or absorb electromagnetic waves.

As a variation to teaching about each type of radiation, pupils could research each one for themselves. This is best done in a structured way, perhaps with an information sheet or table for each one to complete.

Teacher tip

Content guidance

Depiction or discussion of sensitive content

Supervision

Adult supervision recommended

Licence

This content is © Oak National Academy Limited (2024), licensed on Open Government Licence version 3.0 except where otherwise stated. See Oak's terms & conditions (Collection 2).

Video

Skip video

Worksheet

Download worksheet

Skip worksheet

Starter quiz

Download starter quiz

6 Questions

Q1.

Which of the following happens when a wave is transmitted by a medium?

The wave bounces off the medium.

Correct answer: The wave passes through the medium.

The wave’s energy is absorbed by the medium.

Q2.

The of a wave is the number of wavelengths passing a point each second.

Correct Answer: frequency

Q3.

Which of the following are examples of ionisation?

A neutral atom gains a proton.

A neutral atom loses two protons.

Correct answer: An neutral atom loses an electron.

Correct answer: A neutral atom gains two electrons.

Q4.

Which of the following type of electromagnetic radiation has the longest wavelengths?

X–rays

Correct answer: radio waves

light waves

infrared waves

microwaves

Q5.

Which of the following types of electromagnetic radiation can cause ionisation?

radio waves

Correct answer: gamma rays

Correct answer: ultraviolet waves

microwaves

infrared waves

Q6.

Why are some types of electromagnetic radiation more ionising than others?

At longer wavelengths, there is more energy per ‘packet’ of radiation.

Correct answer: At higher frequencies, there is more energy per ‘packet’ of radiation.

At shorter wavelengths, there is less energy per ‘packet’ of radiation.

At lower frequencies, there is more energy per ‘packet’ of radiation.

Exit quiz

Download exit quiz

6 Questions

Q1.

Some types of electromagnetic radiation are non–ionising. Which of the following statements about non–ionising radiations are correct?

It includes X-rays.

Correct answer: It includes infrared waves.

It includes gamma rays.

Correct answer: It cannot change the number of electrons an atom has.

Correct answer: It does not cause atoms to become ions.

Q2.

Which of the following types of radiation are used to cook food?

Correct answer: infrared radiation

Correct answer: microwaves

radio waves

visible light

Q3.

Which of the following type of radiation is used to communicate between Earth and satellites?

infrared radiation

ultraviolet radiation

Correct answer: microwaves

light waves

X–rays

Q4.

Four types of electromagnetic radiation are: radio waves, microwaves, infrared waves, visible light. How many of these can harm humans, if the intensity is high enough?

none of these

one

two

three

Correct answer: four

Q5.

Lower frequency radio waves and higher frequency radio waves can both be used for long-distance communication. Which of the following describe features of lower frequency radio waves?

Correct answer: They can bend around large objects, such as hills.

The direction in which they travel cannot be changed.

Correct answer: They do not pass through the ionosphere.

They can pass through the ionosphere.

Q6.

Which of the following statements are correct?

Correct answer: Radio waves can pass through buildings.

Correct answer: Visible or infrared waves can transmit information along optical fibres.

Infrared radiation can transmit more deeply into food than microwaves can.