CHAPTER 16 WAVE MOTION Properties of waves
In this section we look at how waves can be categorised. There are two main ways that this is done.
• whether or not the waves need a medium to travel through: – mechanical waves need a medium – electromagnetic waves do not need a medium.
• according to vibration mode:
– longitudinal – transverse.
Mechanical waves
Mechanical waves physically vibrate the molecules in the medium so as to pass on their energy and keep the wave moving. They are termed ‘mechanical’ because they are dominated by physical forces that cause them to travel and progress through media.
Examples of mechanical waves are water waves, waves on a rope or slinky and sound waves.
The medium that these waves pass through is temporarily disturbed as the molecules vibrate, but, once the energy passes, the medium returns to normal. Therefore, there is no overall motion of the medium as the wave passes through.
Electromagnetic waves
All electromagnetic (EM) waves belong to the electromagnetic spectrum. They are able to travel through a vacuum and they can also travel through media.
Electromagnetic waves cause a disturbance in the electric and magnetic fields in the region through which they pass – hence their name.
Examples of EM waves include visible light, X-rays and TV/radio waves. There are more which will be covered in detail later.
Travelling waves
Any wave that carries energy away from its source can be categorised as a ‘travelling wave’. Therefore you can have travelling mechanical or travelling EM waves.
The following examples illustrate how waves can carry energy away:
• Any sound wave causes objects to vibrate and use up energy as sound conducts through them.
• EM waves can cause matter to heat up and transfer energy. • X-rays and gamma rays have the ability to knock electrons out of orbit and cause ionisation.
Travelling waves carry energy through a medium without any overall movement of the medium.
LEAVING CERTIFICATE PHYSICS 173
Mechanical waves require a medium to travel through and physically disrupt that medium.
Electromagnetic waves do not require a medium to travel through and cause electric and magnetic disruption.
STS
Although the EM spectrum components share a lot of common characteristics, they can also vary greatly in their effects, due to the frequency of the wave. It is important to reduce exposure time to EM waves as they increase in frequency. For example, TV is a low-frequency wave but X-rays are high frequency.
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