Waves and Radiations Whole Unit

Question 1

What is meant by the amplitude of a wave?

Answer 1

It is the distance from the centre of the wave to the crest or trough.

Question 2

What is meant by the frequency of a wave?

Answer 2

The number of waves per second.

Question 3

What is meant by the wavelength of a wave?

Answer 3

It is the distance from a point on one wave to the same point on the next.

Question 4

Describe how to measure the speed of sound with two students using a clapper board, stop watch and trundle wheel.

Answer 4

• One student takes the clapperboard and stands still.
• The other students takes the stop watch and uses the trundle wheel to measure a set distance away.
• The first student shuts the clapper board.
• The other student starts the stop watch when they see the clapper shut and stops it when they hear the sound.
• Speed of sound is calculated by distance between the students divided by the time on stop watch.

Question 5

Describe how to measure the speed of sound using the equipment below.

Answer 5

• Make a loud sound to the left of the first microphone.
• When the sound reaches microphone one it starts the fast timer, when the sound reaches the second microphone this stops the timer.
• Measure the distance between the microphones using a metre stick.
• The speed is calculated from distance between the microphones divided by the time on fast timer.

Question 6

You are 5km away from a thunder storm. What reaches you first - the thunder or the lighning? Explain your answer.

Answer 6

The lightning. The speed of light is faster than the speed of sound.

Question 7

You are 10km from a thunder storm. You count 15 seconds between seeing the lightning and hearing the thunder. How do you calculate how far away the storm is?

Answer 7

Use d = vt

Where v is the speed of sound.

t is 15 seconds.

Question 8

You are 10km from a thunder storm. You count 15 seconds between seeing the lightning and hearing the thunder. You repeat this after the next lightning strike, the time between the lightning and the thunder is now 10 seconds. What does this tell you?

Answer 8

The storm has moved closer to you.

Question 9

What is meant by a longitudinal wave?

Answer 9

A wave that vibrates along the direction of travel.In a longitudinal wave, the motion of the medium is parallel to the direction of the wave.

Question 10

What is meant by a transverse wave?

Answer 10

A wave that vibrates at ninety degrees to the direction of travel. A transverse wave is a wave in which the motion of the medium is at right angles to the direction of the wave.

Question 11

What type of wave is a sound wave?

Answer 11

Longitudinal.

Question 12

What type of wave is a water wave?

Answer 12

Transverse.

Question 13

What type of wave is a microwave?

Answer 13

Transverse.

Question 14

Name a longitudinal wave.

Answer 14

Sound.

Question 15

Name 3 transverse waves.

Answer 15

• Radio
• Microwave
• Infrared
• Visible light
• Ultraviolet
• X-rays
• Gamma rays
• Water waves

Question 16

Name the members of the electromagnetic spectrum, from lowest to highest frequency.

Answer 16

(Ronald Mcdonald Is Very Ugly eXclaimed George)

• Radio
• Microwave
• Infrared
• Visible Light
• Ultraviolet
• X-rays
• Gamma radiation

Question 17

Which member of the electromagnetic spectrum has the most energy?

Answer 17

Gamma radiation as it has the highest frequency

Question 18

State one detector of radio waves.

Answer 18

Aerial

Question 19

State one detector of microwaves.

Answer 19

Aerial

Question 20

State one detector of infrared

Answer 20

• photodiode
• phototransistor

Question 21

State one detector of visible light.

Answer 21

• Eye,
• photographic film

Question 22

State one detector of Ultraviolet light.

Answer 22

• Some chemicals glow or fluoresce under it
• photocells

Question 23

State one detector of X-rays

Answer 23

Photographic film

Question 24

State one detector of gamma radiation

Answer 24

• Photographic film
• GM Tube
• Bubble chamber

Question 25

State one source of radio waves.

Answer 25

• Transmitter
• Stars

Question 26

State one source of microwaves.

Answer 26

• Transmitter
• Magnetron

Question 27

State one source of infrared.

Answer 27

• Stars
• Lamps
• Flames

Question 28

State one source of visible light.

Answer 28

• The Sun
• Light bulbs
• Anything hot enough to glow

Question 29

State one source of ultraviolet light.

Answer 29

• Sun
• Special Lamps

Question 30

State one source of X-rays.

Answer 30

• Stars
• Nebula

Question 31

State one source of gamma radiation

Answer 31

• Stars
• Some radioactive substances (e.g. Cobalt 60)

Question 32

State one use for radio waves.

Answer 32

• Radio/TV broadcasting
• Aircraft and shipping bands
• Radio waves detected from space are used by astronomers to find out what objects are made from

Question 33

State one use for microwave radiation.

Answer 33

• Mobile phone communications
• Used to heat/cook food
• Microwaves in space are used by astronomers to learn about the structure of nearby galaxies, and our own Milky Way
• Microwaves are also used by fixed traffic
• Radar

Question 34

State one use for infrared radiation.

Answer 34

• Skin emits infrared light we can be seen in the dark by someone using night vision goggles.
• Astronomers use infrared to give extra information about space. Infrared light maps the dust between stars.
• Can be used to create thermograms which are used in medicine as a diagnostic tool for cancer, deep vein thrombosis(DVT), circulation problems (Reynaulds syndrome)
• Remote controls for TVs, DVD, Bluray players etc
• Physiotherapists use heat lamps to help heal sports injuries

Question 35

State one use for visible light.

Answer 35

• We use light to !
• Lasers are visible light and are used in Xbox, Playstation, Bluray player, DVD (where the light is reflected from the tiny pits in the disc, and the pattern is detected and translated into sound or data)
• Lasers also used in laser printers
• In aircraft weapon aiming systems.

Question 36

State one use for ultraviolet radiation.

Answer 36

• UV lamp in a chip shops. (The UV attracts insects, which are electrocuted by high-voltage wires near the lamp - so they won’t land on the food and contaminate it.)
• Detecting forged bank notes in shops (security markings fluoresce under UV light)
• Hardening some dental fillings
• Night club lighting
• UV security pens to mark property
• Killing microbes – Sterilising surgical equipment, air in operating theatres
• Food and drug companies use UV lamps to sterilise products
• Used by the body to produce vitamin D
• Doctors can use it to treat Vitamin D deficiency, acne etc.

Question 37

State one use for X-rays.

Answer 37

• Create images of bones to detect breaks
• Create images of organs for diagnosis
• Security to scan luggage at airports
• Doctors can give patients a “Barium Meal”, which is a drink of Barium Sulphate. This will absorb X-rays, and so the patient’s intestines will show up clearly on a X-Ray image.

Question 38

State one use for gamma radiation.

Answer 38

• Used as a tracer in medicine
• Used to treat cancer
• Sterilisation of operating instruments
• In industry, radioactive “tracer” substances can be put into pipes and machinery, then we can detect where the substances go.
• Gamma rays kill microbes, and are used to so that it will keep fresh for longer. This is known as “irradiated” food.
• Checking for cracks in aeroplane wings and joints

Question 39

What is meant by the ‘normal’?

Answer 39

An imaginary line drawn at ninety degrees to the surface that all angles are measured from.

Question 40

What are the three types of radiation?

Answer 40

• alpha
• beta
• gamma

Question 41

What is meant by ionisation?

Answer 41

It is when an atom gains or loses an electron to become charged.

Question 42

Which is the most ionising radiation?

Answer 42

alpha

Question 43

Which is the least ionising radiation?

Answer 43

Gamma

Question 44

What is meant by shielding?

Answer 44

Shielding means having something that will absorb radiation between you and the source of the radiation.

Question 45

How can you reduce your exposure to radiation when you are working with it?

Answer 45

• Limit the time you have the source out (only get it when you need it)
• Handle only using tongs
• Keep the source at arm’s length
• Wash hands before and after use
• Do not eat while handling it
• Wear lead lined gloves/apron and safety goggles

Question 46

What is meant by background radiation?

Answer 46

It is the radiation that is all around us.

Question 47

State a source of man-made background radiation.

Answer 47

1) Weapons testing
2) Waste from the Nuclear industry
3) Medical uses: Having an X-ray, CT scan, barium meal etc.

Question 48

State a source of natural background radiation.

Answer 48

1) Rocks: Some rocks such as granite or pitchblende are high in radioactivity
2) Food: Food can be slightly radioactive because of the soil it has been grown in.
3) Body: Contains Potassium 40 which is radioactive.
4) Cosmic Rays: Radiation from the Sun and outer space. The atmosphere will absorb most of this.
5) Radioactive gases: Radon and Thoron gases make up most of the dosage you will receive from background radiation. The gases come from rocks underground and the amount you are exposed to depends on the geology of where you live.

Question 49

Give at least 2 uses for gamma radiation.

Answer 49

• Gamma rays are used for radiotherapy which is a cancer treatment
• Thickness control of paper or metal sheet for example.
• Gamma radiation can be used to sterilise medical instruments
• Radio-carbon dating
• Tracers - can be used in industry in pipes to look for cracks or in the human body to check for blockages

Question 50

What is the fuel in a nuclear reactor?

Answer 50

Uranium

Question 51

How does a nuclear power station produce electrical energy?

Answer 51

• The nuclear reactor uses fission of Uranium to produce large amounts of heat energy.
• The heat energy is used to heat a coolant which carries the heat to a heat exchanger where the heat from the coolant is used to heat water.
• The water which is heated, turns into steam, is piped to a turbine.
• The steam makes the turbine turn. (Heat energy to Kinetic Energy)
• The turbine turns the generator to create electrical energy. (Kinetic to Electrical energy)

Question 52

Give an advantage of producing electricity using a nuclear reactor.

Answer 52

• Do not produce greenhouse gases – Carbon dioxide, methane, nitrous oxide
• Do not rely on fossil fuels which are in short supply
• Huge amount of energy from a small amount of fuel
• Small amount of waste produced
• Reliable source of energy (Unlike solar or wind)

Question 53

Give a disadvantage of producing electricity using a nuclear reactor.

Answer 53

• The waste produced is radioactive. It has to be stored safely for a long time.
• Uranium is a non-renewable fuel.
• Risk of radioactive materials being released into the environment if there is an accident.
• Expensive to decommission nuclear power stations at the end of their useful life.

Question 54

What are the particles in the nucleus called?

Answer 54

Protons and neutrons

Question 55

What is the charge on a proton?

Answer 55

Positive

Question 56

What is the charge on a neutron?

Answer 56

No charge

Question 57

What is the charge on an electron?

Answer 57

Negative

Question 58

In an atom which particle orbits the nucleus?

Answer 58

Electron

Question 59

What are the main parts of an atom?

Answer 59

See diagram

Question 60

What is the charge on a beta particle?

Answer 60

Negative

Question 61

What precautions should be taken when storing a radioactive source?

Answer 61

• Source should be clearly labelled as to type
• Stored in lead lined boxes

Question 62

What do waves transfer?

Answer 62

Energy

Question 63

Which wave property is illustrated in the diagram below?

Answer 63

The amplitude of a wave.

Question 64

Which wave property is illustrated below?

Answer 64

Wavelength

Question 65

In the diagram below, where is;

• the normal ?
• the angle of incidence?
• the angle or refraction?

Answer 65

See diagram

Question 66

What happens to a light ray as it travels from air into glass?

Answer 66

It will slow down and change direction towards the normal.

Question 67

What happens to a light ray as it travels from water into air?

Answer 67

It speeds up and changes direction away from the normal.

Question 68

What happens when white light is shone through a triangular prism as shown?

Answer 68

The light is refracted and produces a spectrum.

Question 69

What is the shape of a convex lens.

Answer 69

See image

Question 70

What is the shape of a concave lens?

Answer 70

See image

Question 71

What effect does a convex lens have on light rays?

Answer 71

The light rays converge to a focal point, by refraction of the light.

Question 72

What effect does a concave lens have on light rays?

Answer 72

It causes them to diverge - by refraction of the light

Question 73

What is the difference in the two waves shown below?

Answer 73

The bottom wave has a higher frequency. (Or the top wave has a lower frequency)

Question 74

What is the difference in the two waves shown below?

Answer 74

The top wave has a bigger amplitude and so has more energy.

(Or the bottom wave has a smaller amplitude so has less energy)

Question 75

What path will the ray of light take as it passes through the glass prism?

Answer 75

Light ray still experiences a change of speed - it is still refracted but no directional change.

Question 76

What path will the ray of light take as it passes through the glass prism?

Answer 76

Light ray is refracted at air/glass boundary and glass/ air boundary. Both result in a change of direction.

As it enters the block the speed of the light decreases and it changes direction towards the normal.

As it leaves the block the speed of the light increases and it changes direction away from the normal.

Question 77

What is meant by the term refraction?

Answer 77

When light changes speed when it enters a new medium with a change in direction. (If the angle of incidence is not equal to 0^O)

Question 78

State a hazard of gamma radiation.

Answer 78

• kills cells
• causes cancer
• can lead to leukamia

Question 79

How can you protect yourself from ultraviolet radiation?

Answer 79

• wear suncream / sunscreen
• cover up, wear sunglasses
• stay out of the midday sun / in the shade

Question 80

How do people working with X-Rays protect themselves?

Answer 80

• Stand behind lead lined screens
• Wear lead lined aprons

Question 81

What is meant by ultrasound?

Answer 81

Frequencies above 20 000Hz.

Question 82

State a use for ultrasound

Answer 82

• scanning unborn babies
• sonar to measure the depth of the sea or to find shoals of fish
• Echolocation used by bats and dolphins
• Treating kidney stones

Question 83

What unit is sound level measure in?

Answer 83

deciBels

Question 84

What can happen if you are over exposed to loud sound levels for a long time?

Answer 84

• Can lead to deafness
• Hearing loss

Question 85

How can people who work with loud sounds protect themselves?

Answer 85

• Wear ear defenders
• Wear ear plugs
• Noise cancelling headphones

Question 86

Above which sound level can hearing be damaged?

Answer 86

90dB