Waves 2 *

Question 1

What is the normal?

Answer 1

a line perpendicular to the surface of an object (e.g. mirror or glass block)
drawn as a dotted line

Question 2

Where are angles measured between?

Answer 2

measured between the normal and the light ray

Question 3

What is the law of reflection?

Answer 3

the angle of incidence is equal to the angle of reflection

Question 4

What is specular reflection?

Answer 4

light reflected from a smooth surface at a definite angle

Question 5

What is diffuse reflection?

Answer 5

reflection produced by rough surfaces that tend to reflect light in all directions

Question 6

What three things can happen when waves arrive at the boundary of two different materials?

Answer 6

• absorption
• reflection
• transmission

Question 7

Which material absorbs the wave?
Which store is the energy transferred to?

Answer 7

waves may be absorbed by the second material
often the energy is transferred to a thermal energy store

Question 8

What is reflection?

Answer 8

waves may bounce back (from the second material)

Question 9

What is transmission?

Answer 9

waves may carry on travelling through the new material and often undergo refraction

Question 10

Which two factors depend on what happens to the wave when it reaches a boundary?

Answer 10

its wavelength
the properties of the materials involved

Question 11

What is refraction?

Answer 11

a wave can change direction when it meets a boundary between two objects

Question 12

What is TIR?

Answer 12

Total Internal Reflection

when a wave is travelling into a less dense material, the ray can be refracted back into the first material instead of being transmitted into the new material

Question 13

What is the critical angle?

Answer 13

When the angle of incidence increases and the refracted ray travels along the boundary, the angle of incidence is called the critical angle

Question 14

When does TIR occur? (2 points)

Answer 14

when light is travelling from a more dense material into a less dense material (e.g. glass to air)
when the angle of incidence is greater than the critical angle

Question 15

What shape is a convex lens?

Answer 15

oval shaped

Question 16

What shape is a concave lens?

Answer 16

thinner in the middle, thicker at the top and bottom

Question 17

What is the focal length?

Answer 17

the distance between the middle of the lens and the focal point

Question 18

What is the focal point?

Answer 18

where the light rays are focused/meet

Question 19

Fill the gaps:

• the more powerful a lens is, the ____ the light will be _________ and the _______ the focal length will be
• the more curved a lens is the ____ ________ it is

Answer 19

• the more powerful a lens is, the more the light will be refracted and the shorter the focal length will be
• the more curved a lens is the more powerful it is

Question 20

Give three points about a real image

Answer 20

• formed when light passes through a lens and comes together to form an image
• the light has formed an image and it can be projected onto a screen
• e.g.s projector image on the retina

Question 21

Give three points about a virtual image

Answer 21

• formed when light from an object doesn’t actually come together to form the image but the image is created where the light appears to come together
• the image can’t be projected onto a screen
• e.g.s image in a mirror, looking through a magnifying glass

Question 22

How are sound waves produced?

Answer 22

by vibrations

Question 23

What type of wave are sound waves?

Answer 23

longitudinal

Question 24

How do sound waves transfer energy?

Answer 24

mechanically

Question 25

Which state of matter do sound waves travel fastest in?

Answer 25

solids
because the particles are close together so collisions happen quickly

Question 26

Where can’t sound waves travel?

Answer 26

in a vacuum (e.g. space) because there are no particles

Question 27

Give two properties of sound waves

Answer 27

sound waves can be reflected - this is an echo
sound waves can be refracted - when they travel from a less dense material into a more dense material the sound speeds up which causes it to change direction

Question 28

Where are echos strongest and weakest?

Answer 28

-strongest off of solid surfaces as their energy is not absorbed well
- weakest off of soft materials where their energy is absorbed as the particles in the material can move more easily

Question 29

What is frequency?

Answer 29

the number of wave, oscillations or vibrations per second (measured in Hz)

Question 30

What is sound above 20,000 Hz called?

Answer 30

ultrasound

Question 31

What is the hearing range for humans?

Answer 31

20 Hz to 20,000 Hz

Question 32

What is sound below 20 Hz called?

Answer 32

infrasound

Question 33

What does the auditory nerve do?

Answer 33

sends electrical impulses to the brain

Question 34

What does the cochlea do?

Answer 34

converts the vibrations into electrical signals sent to the brain via the auditory nerve

Question 35

What does the ear canal do?

Answer 35

transmits sound waves to the ear drum

Question 36

What does the ear drum do?

Answer 36

vibrates with the frequency of the sound wave and transmits the vibrations to the ossicles

Question 37

What does the eustachian tube do?

Answer 37

allows the pressure inside the ear to be balanced with the pressure outside the ear

Question 38

What do the ossicles (hammer, anvil and stirrup) do?

Answer 38

vibrate and these vibrations are passed to the cochlea

Question 39

What does the pinna do?

Answer 39

it funnels the sound into the ear cannal

Question 40

What do the semi-circular canals do?

Answer 40

vibrations pass through here to the cochlea and help you keep your balance

Question 41

What is the central membrane?

Answer 41

the membrane in the centre of the cochlea that controls the frequencies vibrating along it and has basilar that detect the vibration and convert it into electrical signals that send impulses to the brain

Question 42

Why does the membrane have a range of stiffness/thickness?

Answer 42

so that the membrane can vibrate more or less at different frequencies

Question 43

What is ultrasound used in?

Answer 43

• echo location
• sonar
• medical scans
• exploring structures

Question 44

How are medical scans carried out? (using ultrasound)
Fill the gaps:

• an __________ probe is placed on the skin of the patient
• the probe sends pulses of ______ _____ through the body of the patient
• when the _____ ____ meets a _______ of different mediums, some of the _____ are ________
• the computer detects the time between the pulses and the echoes and produces an _____

Answer 44

• an ultrasound probe is placed on the skin of the patient
• the probe sends pulses of sound waves through the body of the patient
• when the sound wave meets a boundary of different mediums, some of the waves are reflected
• the computer detects the time between the pulses and the echoes and produces an image

Question 45

What is infrasound used in? (seismic waves) and how

Answer 45

measuring the structure of the earth
- using seismic waves produced by an earthquake scientists can study the structure inside the earth
- they track the time and space P waves and S waves are detected around the earth

Question 46

What are S waves?

Answer 46

slow moving transverse waves that travel only through solids

Question 47

What are P waves?

Answer 47

fast moving longitudinal waves that travel through liquids and solids

Question 48

What is echolocation?

Answer 48

animals use echolocation for navigating and finding food - they send out sound waves and when they reflect from an object they travel back to the animal, the animal listens to the echo and depending on the time between the sound being sent and received they can detect how far away objects are

Question 49

What is sonar?

Answer 49

its used by ships and submarines to find the depth of the ocean or to locate fish - the ship sends out sound waves and then records the time between the signal being sent and received, and the speed of the wave is known so the distance can be calculated using distance = speed x time and then divided by 2

Question 50

What is the method to measure the speed of sound? (4 steps)

Answer 50

1) two people stand 100m apart - one with stopwatch and one with two blocks
2) the person with the blocks claps them together whilst the other person starts the stopwatch
3) the person with the stopwatch stops it when they hear the blocks
4) use the equation speed = distance x time to find the speed of the sound