P12- Wave properties

Question 1

Waves transfer energy without transferring what?

Answer 1

matter

Question 2

What can you use waves for?

Answer 2

transfer information

Question 3

What happens after a small object is dropped in the water?

Answer 3

The waves travel across the surface but the water does not travel away from the object

Question 4

What happens in terms of waves to a tuning fork vibrating?

Answer 4

makes sound waves travel through the air away from the tuning fork. The air itself doesn’t travel away from the vibrating object

Question 5

The oscillations of a transverse wave are what?

Answer 5

perpendicular to the direction in which the waves transfer energy

Question 6

The oscillations of a longitudinal wave are what?

Answer 6

parallel to the direction in which the waves transfer energy

Question 7

What are oscillations?

Answer 7

vibrations

Question 8

All electromagnetic waves are what waves?

Answer 8

transverse waves

Question 9

What happens if the air itself does travel away from the vibrating object?

Answer 9

It becomes a vacuum

Question 10

What type of wave is a mechanical wave?

Answer 10

Transverse or longitudinal

Question 11

How do sound waves work?

Answer 11

When an object vibrates in air, it makes the air around it vibrate as pushes and pulls on the air

Question 12

What is the amplitude?

Answer 12

Height of wave crest from the middle

Maximum displacement of a point on the wave from its undisturbed position

Question 13

The bigger the amplitude, the more…

Answer 13

The more energy the waves carry

Question 14

Longitudinal waves are made up of two things: what are they? [2 marks]

Answer 14

Compression and rarefaction

Question 15

How would you describe a compression?

Answer 15

region in a longitudinal wave where the particles are close together

Question 16

How would you describe rarefactions?

Answer 16

a region in a longitudinal wave where the particles are furthest apart.

Question 17

What is a mechanical wave?

Answer 17

What is a mechanical wave? [3 marks]A wave that can only travel through a medium (substance) and requires particles to move, for instance, sound waves.

Question 18

What is an electromagnetic wave?

Answer 18

A wave that is able to travel through a vacuum, for instance, light waves and radio waves.

Question 19

What is the wavelength

Answer 19

distance from one crest to the next crest or from one trough to the next trough.

Question 20

What is the frequency?

Answer 20

the number of wave crests passing a point in one second.

Question 21

What are the units of frequency?

Answer 21

Hertz, Hz, waves per second

Question 22

What is the period of a wave?

Answer 22

the time it takes for one wavelength pass a point.

Question 23

How can you work out the period of a wave?

Answer 23

period of a wave = 1 / frequency (f)

Question 24

How can you work out the speed of a wave?

Answer 24

v = fλ

Question 25

What is the v in v=fλ

Answer 25

wave speed

Question 26

What unit is wavelength measured in?

Answer 26

metres

Question 27

In reflection and refraction, what are waves called that are travelling towards a barrier or boundary?

Answer 27

Incident waves

Question 28

In reflection, what are waves called that are travelling away from a barrier or boundary after reflecting off it?

Answer 28

Reflection waves

Question 29

In refraction, what are waves called that are travelling away from a barrier or boundary after crossing it?

Answer 29

Refraction waves

Question 30

What happens in reflection?

Answer 30

Wave hits barrier-> the reflected wavefront moves away from the barrier at same angle to the barrier as the incident wavefront

Question 31

In reflection, do the reflected waves have any change in speed or wavelength?

Answer 31

No

Question 32

What happens in refraction?

Answer 32

Wave passes through barrier into a TRANSPARENT or TRANSLUCENT substance- wave changes in speed- causes change in direction

Question 33

In refraction, do the refracted waves have any change in speed or wavelength?

Answer 33

Yes

Question 34

When waves meet a boundary with a dif. substance they may be..

Answer 34

Totally or partially reflected; transmitted through the substance; absorbed by the substance.

Question 35

Why are sound waves caused?

Answer 35

Why are sound waves caused? [2 marks]Sound is caused due to mechanical vibrations in a substance, and travel as a wave.

Question 36

Are sound waves transverse or longitudinal?

Answer 36

longitudinal

Question 37

Are sound waves mechanical or electromagnetic?

Answer 37

Mechanical - they cannot travel through a vacuum and need a medium to travel.

Question 38

How are echoes produced?

Answer 38

How are echoes produced? [1 mark]They are produced when sound waves are reflected off hard, flat surfaces such as walls

Question 39

How can we investigate waves?

Answer 39

By using: a ripple tank for water waves; a stretched string for waves in a solid; a signal generator and loudspeaker for sound waves.

Question 40

How can you investigate waves on a string using a freq. generator and oscillator?

Answer 40

1) Adjust the frequency of the oscillator until the string has a single loop.
2) Note the frequency of the oscillator.
3) Measure the length (L) of the loop and calculate the wavelength (λ) of the wave.
4) For a single loop, λ = 2L.
5) Calculate the speed (v) of the waves on the string using v = fλ.
6) Change the frequency of the oscillator to obtain more loops on the string.
7) Calculate further values of λ and v to compare the wave speed.

Question 41

How can you investigate water waves using a ripple tank?

Answer 41

1) Create plane waves using a ruler. 2)Measure the time taken (t) for a wave to travel from one end of the tank to the other.
3) Measure the distance travelled (s). 4)Calculate the speed of the water waves using v = s/t.
5) Change the frequency of the waves by moving the ruler up and down faster. 6)Calculate further values of v to compare the wave speed.

Question 42

How can you investigate sound waves using a signal generator and loudspeaker?

Answer 42

1) Observe the loudspeaker cone vibrate when connected to the signal generator. 2)Adjust the oscillator’s frequency & see its effects on the loudspeaker cone’s movement.
3) Adjust the loudspeaker’s volume & see its effects on the loudspeaker cone’s movement.

Question 43

the pitch of a note depends on the frequency/amplitude of the sound waves.

Answer 43

frequency

Question 44

the higher the frequency of the waves, the higher/lower the pitch of the sound.

Answer 44

higher

Question 45

the volume of a sound depends on the frequency/amplitude of the sound waves.

Answer 45

amplitude

Question 46

the greater the amplitude, the less/more energy the wave carries and the quieter/louder the sound.

Answer 46

more, louder

Question 47

How do people hear sound in terms of waves?

Answer 47

Sound waves travel through the air.
When they reach the ear, they make the eardrum vibrate
This sends an electrical signal to the brain.

Question 48

What is the range of frequencies that the human ear can hear?

Answer 48

Between 20 Hz and 20,000 Hz

Question 49

: the ability to hear higher/medium/lower frequencies declines with age.

Answer 49

higher

Question 50

What are ultrasound waves?

Answer 50

Sound waves with a frequency higher than 20,000 Hz (too high for a human to be able to hear)

Question 51

How can you scan using ultrasound?

Answer 51

An ultrasound scanner uses an electronic scanner-transducer- to produce ultrasound waves.
When a wave meets a boundary between two different materials, part of the wave is reflected.
The wave travels back through the material to be detected by the transducer.
The time it takes to reach the transducer can be used to calculate how far away the boundary is.
The results are processed by a computer to give an image.

Question 52

When a ultrasound wave meets a boundary between two different materials, what happens

Answer 52

part of the wave is reflected.

Question 53

What happens to the ultrasound waves after it meets a boundary of two different materials?

Answer 53

The wave travels back through the material to be detected by the transducer.

Question 54

The time it takes to reach the transducer can be used for what?

Answer 54

to calculate how far away the boundary is.

Question 55

Where are the results processed by in an ultrasound?

Answer 55

processed by a computer to give an image

Question 56

How can you calculate the distance traveled by an ultrasound pulse?

Answer 56

s = vt (distance traveled equals speed of wave times by time taken)

Question 57

the depth of the boundary below the surface is equal to/half/double the distance traveled by the ultrasound pulse.

Answer 57

half

Question 58

Name three uses for ultrasound

Answer 58

medicine-scanning soft tissue such as the eye and the kidney.
scanning unborn babies.
industrial imaging (for instance, for detecting flaws in metal casting)

Question 59

Why is ultrasound safer than X-ray in medicine?

Answer 59

Ultrasound is non-ionising.

Question 60

Where are earthquakes generated?

Answer 60

In the Earth’s crust

Question 61

What is the name of the point that the earthquake originates from?

Answer 61

The focus

Question 62

What is the name of the closest point on the Earth’s surface to the focus?

Answer 62

The epicentre

Question 63

What type of waves do an earthquake produce?

Answer 63

Seismic waves

Question 64

What direction do the seismic waves from an earthquake travel in?

Answer 64

They spread out from the epicentre in every direction.

Question 65

What are primary seismic waves? p-waves

Answer 65

waves that cause the initial tremors in an earthquake.

Question 66

What are secondary seismic waves? s-waves

Answer 66

waves that causes the tremors that are produced after the first minute or so.

Question 67

Are p-waves longitudinal or transverse?

Answer 67

longitudinal

Question 68

Are s-waves longitudinal or transverse?

Answer 68

transverse

Question 69

Where does L-waves only travel through?

Answer 69

The Earth’s crust

Question 70

Why are L-waves slower than p-waves and s-waves?

Answer 70

they cause violent movement in the Earth’s crust

Question 71

Describe the transitions of P-waves and S-waves between the mantle and the core of the Earth

Answer 71

P-waves refract at the boundary between the mantle and the core, whilst S-waves cannot travel through the core.

Question 72

Where can p waves travel?

Answer 72

only in the earth’s crust and mantle

Question 73

Why are p-waves reflected by the earth’s outer core?

Answer 73

It cannot travel through

Question 74

How is earthquake activity recorded?

Answer 74

recorded by detectors on the surface- seismometers

Question 75

What are seismometers used for?

Answer 75

to determine where the epicentre of an earthquake is.

Question 76

How has analysis of seismic waves help scientists?

Answer 76

-allow them to understand structure of earth

Question 77

What is the structure of the Earth?

Answer 77

liquid inner core (surrounded by)
solid outer core (surrounded by)
mantle (surrounded by)
50km deep crust