P1-Waves

Question 1

Describe and give an example of a longitudinal wave.

Answer 1

Longitudinal waves vibrate parallel to the direction of energy transfer.

A longitudinal wave is made up of compressions and rarefactions.

Sound waves and P waves are longitudinal.

Question 2

What type of wave is a mechanical wave?

Answer 2

Mechanical waves can be both transverse or longitudinal.

Mechanical waves travel through a medium.

Question 3

Define amplitude.

Answer 3

The amplitude of a wave is the maximum disturbance from its rest position.

Question 4

Define wavelength.

Answer 4

The wavelength of a wave is the distance between a point on one wave, and the same point on the next wave.

Question 5

Define frequency.

Answer 5

The frequency of a wave is the number of waves per second and is measured in hertz (Hz).

Question 6

How do you calculate wave speed?

Give the units.

Answer 6

The speed of a wave can be calculated by:

Frequency (Hz) x Wavelength (m) = Wavespeed (m/s).

Question 7

Define reflection.

Answer 7

The mirroring of light, heat or sound without absorbing it.

Question 8

Define refraction.

Answer 8

The changing direction of waves according to material density.

Question 9

Define diffraction.

Answer 9

The spreading out of waves when they pass through a gap or around an obstacle.

Question 10

What is the normal?

Answer 10

The normal is a line drawn perpendicular to the surface.

Question 11

What difference between a virtual image and a real image?

Answer 11

A real image can be formed on a screen because the rays of light that produce the image can pass through it.

A virtual image cannot be formed on a screen because the rays of light that produce the image only appear to pass through it.

Question 12

How does a change in medium and speed cause waves to change direction?

Answer 12

As light waves enter a denser substance they slow down and the wave changes direction towards the normal.

As light waves enter a less dense medium they speed up and the wave changes direction away from the normal.

Question 13

What is the law of reflection?

Answer 13

The law of reflection states that the angle of incidence is equal to the angle of reflection.

Question 14

How does the gap size affect diffraction?

Answer 14

The narrower the gap the greater the diffraction.

The wavelength needs to be similar to the size of the obstacle or gap in order to diffract.

Question 15

Why can hilly areas receive radio signals but not terrestrial TV signals?

Answer 15

TV signals have short wavelengths and so do not diffract around the hills whilst the radio waves have longer wavelengths which can diffract around the hills because they are a similar size to the hill.

Question 16

What is the frequency range of the normal human ear?

Answer 16

From about 20Hz to 20kHz.

Question 17

What is a sound wave?

What is an echo?

Answer 17

Sound waves are longitudinal waves caused by mechanical vibrations- they need to travel through a medium.

Reflections of sounds are called echoes.

Question 18

Describe the link between volume and amplitude.

Answer 18

The higher the volume the higher the amplitude.

Question 19

Describe the link between frequency and pitch.

Answer 19

The higher the pitch, the higher the frequency.

Question 20

Describe and give examples of a transverse wave.

Answer 20

Transverse waves oscillate at right angles to the direction of energy transfer.

All electromagnetic waves and S waves are transverse.