11 Light and Sound

Question 1

Locate the compressions and rarefactions

Answer 1

Question 2

What is the relationship between refractive index, incident angle and refracted angle (Snell’s Law)?

Answer 2

Note: the angle i = angle in air

Question 3

When measuring an angle of incidence, what is the most common error?

Answer 3

Angle of incidence is not 56°

Angle of incidence is between the incident ray and the normal

90° - 56° = 34°

incident angle = 34°

Question 4

What type of wave is visible light?

Answer 4

It is a transverse wave- oscillations are 90° to direction of travel

Question 5

What is the order of the visible spectrum?

Answer 5

red

orange

yellow

green

blue

indigo

violet

Question 6

What can be altered to change the number of complete waves on the screen of a CRO?

Answer 6

time base

Question 7

What shows that the chirp of each bird is the same pitch?

Answer 7

same number of waves in the same time

same frequency

Question 8

Ultrasound is used in echo finding. Give one example of how human use ultrasonic echoes.

Answer 8

Trawlers send ultrasonic pulses into the ocean and time how long it takes for a reflection to return from the ocean floor.

distance = speed of sound in water (1500m/s) x time of echo

depth of ocean = depth / 2

Question 9

What is the frequency of sound?

Answer 9

Number of vibrations per second

measured in Hertz Hz

Question 10

Why does sound travel faster in solids compared to gases?

Answer 10

1. Solids have stronger forces between particles compared to gases
2. particles are closer together in a solid compared to a gas
3. It is easier for vibrations to be passed between particles in a solid compared to a gas

Question 11

You can find the refractive index of a block by following these instructions. What equipment is needed and what must be measured and calculated?

1. Place the rectangular block in the centre of the paper and carefully trace its position
2. Shine ray of light from ray box at an angle to the air/glass boundary
3. Mark incident ray and emerging ray with two crosses using the pencil
4. Remove the block and using a ruler trace the incident ray and emergent ray up to the air/glass boundary
5. Join the points where the light entered and left the block, and draw a normal using a protractor.

Answer 11

Equipment: ray box, rectangular block of glass, paper, pencil, ruler, protractor

6. Measure the incident and refracted angle using the protractor.
7. Calculate the refractive index n = sin i/ sin r
8. Repeat steps 1-6 for different angles, calculate the refractive index and find a mean

ALTERNATIVE:

8. Repeat steps 1-6 for five different angles, plot sin i against sin r and draw a line of best fit through the origin.
9. Find the gradient of the line, this equals the refractive index

Question 12

An endoscope is one use of visible light. Light is sent down an optical fibre and an image of internal organs can be viewed by a doctor.

What prinicple of light does this application use?

Answer 12

TIR or total internal reflection of light

Question 13

What happens to the speed, direction and wavelength of light when it enters a more dense medium at an angle to the normal?

Answer 13

Light slows down, the waves bunch up and the wavelength decreases, the waves change direction- bend towards the normal.

Question 14

In a vacuum, the speed of light is 300 000 000 m/s. In air it is effectively the same. What is the refractive index of air and how does this compare to any other medium?

Answer 14

The refractive index of air is 1.00.

The speed of light in any other medium will be lower than 300 000 000 m/s and so the refractive index will be greater than 1.00

• i.e. the refractive index of plastic is 1.50*
• the refractive index of water is 1.33*

Question 15

What property of a sound wave indicates the loudness of the sound?

Answer 15

amplitude

Question 16

Binoculars use TIR to bend light through prisms and direct it to the back of the eye. Explain what happens in each prism?

Answer 16

angle of incidence = 45°

critical angle of prism is 42°

Therefore TIR occurs

If incident angle = 45°, then reflected angle= 45°

Therefore light is bent a total of 90°

Question 17

What is the relationship between the critical angle and refractive index?

Answer 17

Question 18

What is the unit for pitch of sound?

Answer 18

Hertz Hz

pitch = frequency

Question 19

How is sound different from visible light?

Answer 19

sound is a longitudinal wave, light is a transverse wave

sound cannot travel through a vacuum, light can

sound travels much slower in air (340 m/s), light is much faster at 300 000 000 m/s

Question 20

What type of wave is a sound wave?

Answer 20

Longitudinal

Medium oscillates (to and fro) parallel to direction of wave travel

Question 21

If reflection is light bouncing, what is refraction?

Answer 21

Refraction is light bending (changing direction)

Question 22

Determine the amplitude of the wave.

volts per division = 5 V/ div

Answer 22

amplitude = 2 division

2 divisions x 5V/division= 10V

Question 23

Define the angle of refraction

Answer 23

the angle between the refracted ray and the normal

Question 24

A prism is a triangular block of glass. The sides of the prism are not parallel.

When white light is shone through the prism, different wavelengths of light are deviated by different amounts.

What is observed and what is the effect called?

Answer 24

The white light splits into a range of colours called a spectrum.

The effect is called dispersion

Note: This shows that white light is a mixture of colours of the rainbow

Question 25

Label the wavelength of the sound wave below

Answer 25

distance from middle of one compression to the middle of the adjacent compression.

compression to compression

Question 26

Why does the light totally internally reflect down the glass tube?

Answer 26

The angle of incidence is greater than the critical angle, therefore TIR occurs

Question 27

What happens to the speed, direction and wavelength of light when is enter a less dense medium?

Answer 27

Light speeds up, the waves spread out and the wavelength increases, the waves bend away from the normal

Question 28

How can sound be produced?

Answer 28

Sound is a vibration. A vibrating object will produce sound.

Sound transfers energy without transferring matter. Matter oscillates (is disturbed) as the wave passes through it.

Question 29

How is sound and visible light similar?

Answer 29

sound and light are waves

sound and light transfer energy without transferring matter

sound and light dissipate as they travel outward

sound and light can reflect, refract and diffract

Question 30

List some properties of visible light

Answer 30

• is a form of radiation
• travels in straight lines
• transfers energy without transferring matter
• travels through a vacuum
• travels as waves at 300 000 000 m/s
• varies in frequency (red light lowest frequency, violet light highest frequency)
• it can refect, refract and diffract

Question 31

Ultrasound is used in echo finding. Explain why a pulse must be sent instead of a continuous wave.

Answer 31

The pulse sent must return (and be registered) before the next pulse is sent so that they can be distinguishable from each other.

Question 32

Which sound has the higher frequency?

Answer 32

Mouse has a higher frequency sound

More waves per unit time

Question 33

How does the following analogy of soldiers marching in rank from concrete to mud help explain refraction.

Answer 33

1. soldiers slow down when going into mud, light slows down when going into a more dense medium
2. rows of soldiers bunch up when in the mud, wavelength of light decreases when light enters more dense medium
3. direction of soldier bends towards the normal when they enter the mud, ray of light bends towards the normal when entering a more dense medium

Question 34

When white light is passed through a prism, which colour of light is deviated the least?

Answer 34

red

Question 35

How can you calculate the refractive index from the following graph?

Answer 35

The gradient of a sin i against sin r graph equals the refractive index

gradient = 0.9/0.5 = 9/5 = 1 and 4/5 = 1.80

n = 1.80

Question 36

What is meant by monochromatic light?

Answer 36

Light of a single wavelength or colour.

Question 37

What instrument can be used to measure the frequency of sound?

Answer 37

CRO and microphone

Question 38

How is frequency and time period related?

Answer 38

frequency = 1 / time period

time period = 1 / frequency

Question 39

Determine the frequency of the wave.

time base = 0.5 s/ division

Answer 39

peak to peak = 4 divisions

Time period = 4 x 0.5s / division = 2s

f = 1 / time period = 1/2 = 0.5 Hz

Question 40

Ultrasound is used in echo finding. Give one example of echo sounding in nature.

Answer 40

Bats using ultrasound to locate prey.

Question 41

When white light is passed through a prism, which colour is deviated the most?

Answer 41

violet

Question 42

Link the following terms which describe sound waves…

• amplitude*
• frequency*
• pitch*
• loudness*

Answer 42

amplitude = loudness

frequency = pitch

Question 43

How can the echo method be used to measure the speed of sound through air?

Answer 43

• Stand 170 m from large wall or cliff face.
• begin clapping at constant rate and listen for echo
• speed up or slow down rate of clapping until your clap is at same time as you hear the echo. (sound travels there and back between claps = 340m!!)
• time 10 full claps. (340m x 10 = 3400 m)

speed = 3400m / time

(time should be 10 second as 3400 m / 10 s = 340 m/s)

Question 44

What do the following graphs tell us about the relationship between the incident angle and refracted angle?

Answer 44

• i is not proportional to r (1st graph is not a straight line)
• sin i is proportional to sin r (2nd graph is a straight line through the origin)

Question 45

Define the angle of incidence

Answer 45

angle of incidence is the angle between the incident ray and the normal

Question 46

Out of the liquids listed below, which will bend light the most?

Answer 46

Sodium chloride will bend light the most because it has the largest refractive index.

Question 47

What is the unit for wavelength of a sound?

Answer 47

metres (m)

Question 48

How can you measure the speed of sound through air in a laboratory?

Answer 48

• Use microsecond timer connected to two microphones which are places 2.00 metres apart (using metre rules)
• make sound (hammer on metal) behind first microphone
• first microphone starts timer
• second microphone stops timer
• repeat 5 times and find mean

speed of sound = 2.00 m / average time

Question 49

Diamond has a very high refractive index of 2.40. This means that the critical angle is very small at 25°.

Why does this make diamond lustre?

Answer 49

TIR occurs when i > critical angle

If the critical angle of diamond is only 25°, then more light is reflected within the diamond.

Diamonds are cut into a shape which allows light entering the top of the diamond to reflect within it and emerge back through the top - making it lustre!

Question 50

In terms of TIR, what is the critical case?

Answer 50

When light is shining from a more dense medium to a less dense medium at exactly the critical angle.

In this case the light will run along the boundary with a refracted angle of 90°

Question 51

What is the unit for loudness of sound?

Answer 51

decibels dB

Question 52

Ultrasound is sound of frequency greater than the human hearing range. Explain

Answer 52

Human hearing range is from 20 - 20 000 Hz

Sound with frquency higher than 20 000 Hz is called ultrasound

Question 53

What is a normal line?

Answer 53

A dotted line drawn 90° to mirror or boundary surface

Question 54

State the law of reflection

Answer 54

incident angle = reflected angle

( note: the incident ray, normal line and reflected ray are all in the same plane)

Question 55

What can be altered to make a sound wave amplitude larger or smaller on the screen of a CRO?

Answer 55

volts per division

Question 56

What is the human frequency range?

Answer 56

20 - 20 000 Hz

Question 57

Determine the amplitude of the wave.

volts per division = 2 V/ div

Answer 57

amplitude = 2 division

2 divisions x 2V/division= 4V

Question 58

Determine the time period of the wave.

time base = 10 microseconds / division

10 x 10^-6 s

Answer 58

peak to peak = 3.3 divisions

(crest to crest)

T= 3.3 div x 10 microseconds/ div= 33 microseconds

33 x 10^-6 s

Question 59

What is the critical angle?

Answer 59

The critical angle is the largest angle of incidence for which refraction can still occur.

Question 60

What are the issues with measuring speed of sound in air using a starting pistol and stopwatch?

How can the method be improved?

Answer 60

• large reaction time using stopwatch
• time reading can be very small and so this creates large percentage error in time readings

Improvement:

Larger distances can be used with increases the time reading and reduces the percentage error (distance > 200m is best)

Question 61

What must be connect to a CRO to display a sound wave?

Answer 61

a microphone

Question 62

Determine the time period of the wave

time base = 10 ms/ division

Answer 62

Peak to peak = 3.2 divisions

time period = 3.2 x 10 ms = 32 ms

Question 63

What happens to the speed, direction and wavelength of light when it enters a more dense medium at angle of 0° (along normal)?

Answer 63

Light slows down, the waves bunch up and the wavelength decreases but the direction does not change

Question 64

What are the properties of a sound wave?

Answer 64

Sound cannot travel through a vacuum

Sound travels fastest through a solid

Sound can reflect, refract or diffract

Sound dissipates as it travels outward

Sound travels at 340 m/s in air

Sound is a longitudinal wave

Sound transfers energy without transferring matter