6. Waves

Question 1

What type of wave is a sound wave?

Answer 1

Longitudinal

Question 2

Which type of vibrations move parallel to the direction of the wave?

Answer 2

Longitudinal

Question 3

Which type of vibrations move perpendicular to the direction of the wave?

Answer 3

Transverse

Question 4

Which waves can’t travel through a vacuum?

Answer 4

Mechanical

Question 5

Which waves can travel through a vacuum?

Answer 5

Electromagnetic

Question 6

Which waves pass their vibrations through particles?

Answer 6

Mechanical

Question 7

What is frequency measured in?

Answer 7

Hertz

Question 8

If one wave passes per second, what is the frequency?

Answer 8

1 Hz

Question 9

How do you work out frequency?

Answer 9

Frequency = 1 / Period

Question 10

What is a period?

Answer 10

How long is takes for the wave to pass a point - messed in seconds

Question 11

Equation for wave speed?

Answer 11

Wave speed = frequency x wavelength

Question 12

Equation for frequency?

Answer 12

Frequency = speed / wavelength

Question 13

Equation for wavelength?

Answer 13

Wavelength = speed / frequency

Question 14

What is the symbol for wavelength?

Answer 14

Lambda

Question 15

What does the angle of incidence equal?

Answer 15

The angle of reflection

Question 16

When light enters a glass cube, which direction does it refract?

Answer 16

Towards the normal

Question 17

What happens when light enters a denser glass block?

Answer 17

The speed of the wave decreases and it refracts towards the normal

Question 18

When the incident ray leaves the glass block, which direction does it go in?

Answer 18

Away from the normal

Question 19

What happens to the speed of the ray it leaves the glass block?

Answer 19

It speeds up and bends away from the normal

Question 20

What is the speed of a wave through a vacuum?

Answer 20

300,000,000 or 3x10 to the power of 8

Question 21

Do different electromagnetic waves carry different amount of energy?

Answer 21

Yes

Question 22

What happens when a ray is absorbed instead of reflected?

Answer 22

It heats up

Question 23

What happens as the energy of a wave increases?

Answer 23

The temperature and hazard increased

Question 24

What happens as the wavelength decreases?

Answer 24

The frequency increases
The energy carried increases 
The waves become more dangerous
The waves diffract less
The waves have a shorter range
The waves carry more information

Question 25

What are the groups in the electromagnetic spectrum?

Answer 25

Gamma
X-ray
Ultraviolet 
Visible
Infrared 
Microwaves
Radio waves

Question 26

What type of electromagnetic wave has the highest frequency and energy, and the shortest wavelength?

Answer 26

Gamma

Question 27

What type of electromagnetic wave has the lowest frequency and energy, and the longest wavelength?

Answer 27

Radio waves

Question 28

What are infrared waves used for?

Answer 28

To locate fire, detect humans and night vision

Question 29

What type of wave is a light wave?

Answer 29

Transverse

Question 30

What are radio waves used for?

Answer 30

Radio, TV, telecommunications

Question 31

What are gamma waves used for?

Answer 31

Kills bacteria, radiotherapy, cancer treatment

Question 32

What are microwaves used for?

Answer 32

Radar detection, satellite communications, cooking

Question 33

What are in X-rays used for?

Answer 33

Examine damaged machinery and medical scans

Question 34

What are visible waves used for?

Answer 34

Computers, TV, LED display, to see

Question 35

What are ultraviolet waves used for?

Answer 35

Detect counterfeit banknotes

Question 36

What are the hazards of infrared waves?

Answer 36

Overheating - burning

Question 37

What are the hazards of radio waves?

Answer 37

None

Question 38

What are the hazards of gamma waves?

Answer 38

Cancer mutations to tissue

Question 39

What are the hazards of microwaves?

Answer 39

Damage parts of brain

Question 40

What are the hazards of X-Ray’s?

Answer 40

Body cells can be killed by high doses

Question 41

What are the hazards of visible waves?

Answer 41

Intense beam damages eyes

Question 42

What are the hazards of ultraviolet waves?

Answer 42

Sun burn, skin cancer

Question 43

How are sounds made?

Answer 43

When an object vibrates and it causes the layer of air next to it to vibrate

Question 44

Where do sounds travel fastest? Why?

Answer 44

Solids because the particles are closer together

Question 45

Why is the no sound in a vacuum?

Answer 45

Because there are no particles to vibrate and pass on energy

Question 46

What do you need to remember when doing f=v/lambda

Answer 46

MAKE SURE THAT THE WAVELENGTH IS IN METRES, THE TIME IN SECONDS AND FREQUENCY IN HZ

Question 47

What is the range of normal human hearing?

Answer 47

20Hz to 20,000Hz

Question 48

When will sound waves refract?

Answer 48

When air changes temperature (change in medium) - waves will travel slower in cooler air

Question 49

Where does sound refract in the night?

Answer 49

Downwards, the air near the ground is cooler than the air higher up

Question 50

What frequency are ultrasound waves?

Answer 50

Higher than 20,000Hz

Question 51

When are ultrasound waves reflected?

Answer 51

When they reach a boundary between two different media

Question 52

How do you determine how far away a boundary is?

Answer 52

How long the reflections take to reach the detector

Question 53

What is ultrasound used for?

Answer 53

Medical

Industrial cleaning and no destructive testing of materials

Question 54

Why does the ultrasound need to be a pulse?

Answer 54

So you can hear the echo

Question 55

How is the time delay for an ultrasound and pulse worked out?

Answer 55

distance = speed x time

Question 56

Why is gel used in ultrasound?

Answer 56

Because then there is more ultrasound absorbed. When there is a big difference between densities lots of it would be reflected.

Question 57

What is the distance in ultrasound?

Answer 57

The way there and back

Question 58

What is the depth in ultrasound?

Answer 58

Just the way there

Question 59

Other uses of ultrasound?

Answer 59

The detection and removal of kidney stones

Question 60

What makes seismic waves?

Answer 60

A sudden release of energy in the earths crust

Question 61

What is used to detect movements of the earths crust?

Answer 61

A seismometer

Question 62

What are the two types of seismic wave?

Answer 62

Primary and secondary

Question 63

Properties of primary waves?

Answer 63

• longitudinal
• travels through solids and liquids
• travels faster

Question 64

Properties of secondary waves?

Answer 64

• transverse
• only travel through solids
• travels slower

Question 65

How does heat travel through space?

Answer 65

By infrared waves

Question 66

What emits and absorbs thermal radiation?

Answer 66

All bodies

Question 67

What is thermal (infrared) radiation?

Answer 67

The transfer of energy by electromagnetic waves

Question 68

What is a thermograph?

Answer 68

The images taken using infrared radiation

Question 69

What surface is the best emitter of infrared radiation?

Answer 69

Matte black surfaces

Question 70

What surface is the worst emitter of infrared radiation?

Answer 70

Silver (shiny) surfaces

Question 71

Best materials to emit infrared radiation? Best to worst

Answer 71

Matte black, shiny black, white, silver

Question 72

Which kettle will cool down faster: black or metallic?

Answer 72

Black because it will emit more radiation

Question 73

What direction does heat energy flow in?

Answer 73

From a hot object to a cooler one

Question 74

What do good emitters also act as?

Answer 74

Good absorbers

Question 75

What surface is the best absorber of infrared radiation?

Answer 75

Matte black surfaces

Question 76

What surface is the worst absorber of infrared radiation?

Answer 76

Silver surfaces

Question 77

Best materials to absorb infrared radiation? Best to worst

Answer 77

Matte black, shiny black, white, silver

Question 78

Why are shiny surfaces the worst absorbers?

Answer 78

They reflect most of the radiation away

Question 79

Why do solar panels have a black outer layer?

Answer 79

So it can absorb heat

Question 80

Why are firefighters suits shiny?

Answer 80

They are the worst absorbers, the the best reflectors

Question 81

Why is the back of a solar panel silver?

Answer 81

Reflect heat back onto pipes

Question 82

Why are premature babies wrapped in silver blankets?

Answer 82

Its the worst emitter, so reduces the amount of heat that they lose

Question 83

Why are radiators in car engines black?

Answer 83

It’s the best emitter

Question 84

What is a perfect black body?

Answer 84

An object that absorbs all the radiation that hits it

Question 85

What does a perfect black body not do?

Answer 85

Reflect or transmit any radiation

Question 86

What is the radiation emitted by a black body called?

Answer 86

Black body radiation

Question 87

What is black body radiation?

Answer 87

The radiation emitted by a black body

Question 88

If an object’s temperature is higher, what will happen to the infrared radiation it’s emitting?

Answer 88

Higher temperature -> more infrared radiation emitted in a given time

Question 89

What happens as a filament lamp warms up?

Answer 89

• doesn’t glow, emits infrared
• warms up glows dull red -> emitting visible spectrum
• orange-red
• yellow-white as filament gets hotter

Question 90

What does the intensity of radiation at a certain wavelength depend on?

Answer 90

Temperature

Question 91

What happens as temperature and radiation increases?

Answer 91

Radiation increases at every wavelength and the peak moves to a shorter wavelength (high frequency)

Question 92

What happens to radiation as temperature increases?

Answer 92

If temperature increases, intensity of radiation increases at every wavelength so peak moves to a shorter wavelength

Question 93

What does the temperature of the earth depend on?

Answer 93

1. The rate that light and infrared radiation are absorbed by the atmosphere/surface or are reflected back into space
2. The rate at which the earth emits radiation from its surface and atmosphere

Question 94

Where does the sun’s spectrum peak?

Answer 94

At visible wavelengths

Question 95

What are the two major types of lens?

Answer 95

• concave

* convex

Question 96

What can concave lenses also be known as?

Answer 96

Diverging lenses

Question 97

What can convex lenses also be known as?

Answer 97

Converging lenses

Question 98

When is there a principal focus?

Answer 98

When the light rays are parallel

Question 99

In a convex lens, how does the thickness of the lens affect the focal length?

Answer 99

The thicker the lens, the shorter the focal length

Question 100

What is the shape of a converging lens?

Answer 100

It is thicker at the centre than the edges

Question 101

What is the shape of a diverging lens?

Answer 101

It is thinner at the centre than the edges

Question 102

How is magnification calculated?

Answer 102

magnification = image height / object height

Question 103

If the image is larger than the object what is the magnification equal to?

Answer 103

greater than 1

Question 104

If the image is smaller than the object what is the magnification equal to?

Answer 104

less than 1

Question 105

What can the image in a convex lens be?

Answer 105

• real or virtual
• magnified or diminished
• upright or inverted

Question 106

How is the image transformed in a camera?

Answer 106

(convex lens)

• diminished
• inverted
• real

Question 107

How is the image transformed in a projector?

Answer 107

(convex lens)

• magnified
• inverted
• real

Question 108

How is the image transformed in a magnifying glass?

Answer 108

(convex lens)

• magnified
• upright
• virtual

Question 109

What type of images do convex lenses give?

Answer 109

• virtual
• upright
• diminished

Question 110

What happens in a convex lens when the object moves further away from the lens?

Answer 110

The image gets smaller and moves away from the lens

Question 111

How is short-sightedness corrected?

Answer 111

The eyeball is elongated so needs a concave lens

Question 112

How is long-sightedness corrected?

Answer 112

Convex lens

Question 113

Why does white light spread out into colours after it passes through a glass pyramid?

Answer 113

The different wavelengths experiences different changes in speed as they enter and leave the glass so refract by different amounts

Question 114

Which colours are refracted the most and the least?

Answer 114

• red is refracted the least

* violet is refracted the most

Question 115

What are the primary colours of light?

Answer 115

Red, green, blue

Question 116

What are the secondary colours of light?

Answer 116

Yellow, cyan, magenta

Question 117

What does green and blue light create?

Answer 117

Cyan light

Question 118

What does green and red light create?

Answer 118

Yellow light

Question 119

What does green and red light create?

Answer 119

Magenta light

Question 120

What does a filter do?

Answer 120

Only allows a small range of wavelengths to pass through

Question 121

What does a red filter do?

Answer 121

Only allows red light through and absorbs blue and green light

Question 122

What are opaque objects?

Answer 122

Those that do not transmit light

Question 123

What does the colour that an objects appears depend on?

Answer 123

Which wavelengths are most strongly reflected

Question 124

Why do objects appear white?

Answer 124

They reflect all of the wavelengths of visible light equally

Question 125

Why does a red object look black through a blue filter?

Answer 125

A red object only reflects red light and the blue filter only transmits blue light, so only blue light shines on the red object and it is absorbed so it appears black

Question 126

How is a light ray reflected by flat foil?

Answer 126

Reflected in a single direction (specular reflection)

Question 127

How is a light ray reflected by crumpled foil?

Answer 127

Scattered (diffuse reflection)