P13 - Electromagnetic Waves

Question 1

What are Carrier waves?

Answer 1

Waves used to carry any type of signal

Question 2

What is a charge-coupled device (CCD)?

Answer 2

An electronic device that creates an electronic signal from an optical image formed on the CCD’s array of pixels

Question 3

What is a contrast medium?

Answer 3

An X-ray absorbing substance used to fill a body organ so the organ can be seen on a radiograph

Question 4

What is the electromagnetic spectrum?

Answer 4

The continuous spectrum of electromagnetic waves

Question 5

What is ionisiation?

Answer 5

The process by which atoms become charged

Question 6

What are microwaves?

Answer 6

Electromagnetic waves between infrared radiation and radio waves in the electromagnetic spectrum

Question 7

What is an optical fibre?

Answer 7

Thin glass fibre used to transmit light signals

Question 8

What is a radiation dose?

Answer 8

Amount of ionising radiation that a person receives

Question 9

What is a radiowave?

Answer 9

Electromagnetic waves of wavelengths greater than 0.1m

Question 10

What is Ultraviolet Radiations (UV)?

Answer 10

electromagnetic waves between visible light and X-rays in the electromagnetic spectrum

Question 11

What is wave speed?

Answer 11

The distance travelled per second by a wave crest or trough

Question 12

What is white light?

Answer 12

Light that includes all colours of the spectrum

Question 13

What is the structure of an electromagnetic wave?

Answer 13

Electromagnetic waves are transverse waves that transfer energy. The vibrations come in the form of electric and magnetic fields that make up the EM wave. They oscillate 90* to the direction in which the wave is travelling (The electric field also oscillates 90* to the magnetic field).

Question 14

What is are the properties of an electromagnetic wave?

Answer 14

• They are transverse waves.
• They can travel through a vacuum (they do not require a medium to travel through).
• They travel at the speed of light
• EM waves with a high frequency have high energy, while low frequency waves have low energy
• They form a continuous spectrum

Question 15

What is an electromagnetic wave?

Answer 15

Electrical and magnetic disturbances that transfer energy from one place to another

Question 16

What is the order of the EM spectrum (from long wavelength to short) (low frequency to high)

Answer 16

Radio Waves
Microwaves
Infrared
Visible Light
Ultraviolet Light
X-rays
Gamma radiation

Question 17

What is the speed of light in a vacuum?

Answer 17

3.0x10^8

Question 18

What is the equation for the speed of a wave?

Answer 18

Wave speed = Frequency x wavelength

Question 19

If a shiny white can of water and a matt black can of water are both heated by an infrared lamp, which will heat quickest?

Answer 19

The water in the black beaker will increase in temperature more than the temperature of the water in the white beaker. This is because matt, dark surfaces absorb more infrared radiation than shiny, light surfaces

Question 20

What emits more infrared radiation, a shiny white surface or a matt black surface?

Answer 20

matt black surface, dark matt surfaces are good emitters of infrared radiation whereas white shiny surfaces are poor emitters of infrared radiation

Question 21

What absorbs more infrared radiation, a shiny white surface or a matt black surface?

Answer 21

matt black surface, dark matt surfaces are good absorbers of infrared radiation whereas white shiny surfaces are poor absorbers of infrared radiation

Question 22

If a matt black can and a white shiny can where both filled with hot water, which volume of water would be hottest after 5 minutes?

Answer 22

The water in the shiny white can would be hottest, this is because a shiny white surface is a poor emitter of infrared radiation

Question 23

What are the properties of a short wavelength carrier wave?

Answer 23

• More information carried
• More energy carried
• Shorter range (greater absorption by the atmosphere)
• The less they spread out

Question 24

What are the properties of a long wavelength carrier wave?

Answer 24

• Less information carried
• Less energy carried
• Greater range (less absorption by the atmosphere)
• The more they spread out

Question 25

What can Ultraviolet light be used for?

Answer 25

• Sun beds
• Fluorescent materials
• Security
• Sterilisation

Question 26

How can Ultraviolet light be used with fluorescent materials?

Answer 26

Fluorescent materials absorb UV light and re-emit the energy as visible light. This has uses in fluorescent paint and fluorescent light bulbs (really energy efficient)

Question 27

How can UV light be used in security?

Answer 27

Some types of ink are invisible until UV light is shined on it. They absorb the UV light and re-emit it as visible light. This can be used to mark valuable objects or money

Question 28

How can UV light be used in sterilisation?

Answer 28

UV light destroys microorganisms

Question 29

What are the 3 types of ionising radiation?

Answer 29

• UV Light
• X-rays
• Gamma radiation

Question 30

What are the dangers of UV light?

Answer 30

UV light has a shorter wavelength than visible light, this means that it carries more energy and can be damaging:

• They are harmful to human eyes and may cause blindness
• They are harmful to your skin, too much UV light from the sun or a tanning bed may age the skin prematurely, cause sunburn, and as it is ionising it may cause skin cancer

Question 31

How can you protect yourself from the dangers of UV light?

Answer 31

• If you stay outdoors during the summer, use skin creams to block UV waves and prevent them reaching your skin
• Do not look directly at the sun or other sources of UV light
• Do not go over the recommended time in a tanning bed and do wear protective goggles

Question 32

How are X-rays produced?

Answer 32

X-rays are produced when electrons or other particles travelling at high speeds are stopped. X-ray tubes are used to produce X-rays

Question 33

How are gamma rays produced?

Answer 33

Gamma rays are produced when unstable nuclei in radioactive substances decay and release energy in the form of EM waves

Question 34

What are some similarities of X-rays and Gamma Rays?

Answer 34

• Very high frequency
• Very low wavelength
• High penetrating power
• Will be stopped by a thick lead plate

Question 35

Describe the penetrating power of Gamma rays and X-rays

Answer 35

Gamma rays and X-rays both are highly penetrating as they have short-wavelengths (therefore carry much more energy than longer wavelength EM waves). Gamma rays have shorter wavelengths than X-rays and are therefore more strongly penetrating

Question 36

What does a white piece of clothing look like under a UV lamp?

Answer 36

It glows blue, this is because many cleaning detergents contain fluorescent dyes to make white clothes brighter.

Question 37

What are the dangers of X-rays and Gamma radiation, and how do you protect against them?

Answer 37

They are highly penetrative and are also forms of ionising radiation. This means they may cause mutations in cells which may lead to a cancerous tumour forming. To protect against them you should wear a thick plate of lead

Question 38

Describe how ionising radiation works?

Answer 38

High-frequency radiation (UV, X-ray, Gamma) can knock electrons out of a substance as it passes through. This process is known as ionisation. If it happens to the atoms of living cells it can damage the cell, causing mutation of genes and cancerous growth. At higher doses it can kill the cell

Question 39

What is a CT scanner?

Answer 39

A CT scanner is a circular machine in which the patient sits inside, the x-ray moves around the inside of the ring and at each position x-rays are released to form an image

Question 40

What are the advantages of a CT scanner?

Answer 40

• It can form a 3d image

* It can distinguish between soft tissue

Question 41

What are the disadvantages of a CT Scan?

Answer 41

• They are very expensive

* A higher dose of ionising radiation is administered to the patient

Question 42

How is an X-ray image produced?

Answer 42

When the X-ray tube is switched on, X-rays from the tube pass through the part of the patients body under investigation. X-rays pass through soft tissue, but they are absorbed by bones, teeth and metal objects. The parts of the film or detector that the X-rays reach become darker than the other parts. Therefore the bones appear lighter than the surrounding material (which appears dark). The radiograph shows a “negative image”.

Question 43

What does a hole or cavity in a tooth show up as in an X-ray?

Answer 43

A dark area in the bright image of the tooth

Question 44

What are 2 advantages of using an X-ray?

Answer 44

• They can accurately show if bones are broken or teeth contain cavities
• They can be used to destroy cancerous tumours

Question 45

What are 2 disadvantage of using X-rays?

Answer 45

• They are a form of ionising radiation, in high doses they may cause cancer
• They cannot distinguish between soft tissue

Question 46

Why can UV waves be used to image organs and unborn babies?

Answer 46

Ultrasound waves are used to image unborn babies and organs inside the human body. This is because ultrasound waves are partially reflected at body organs. This is because body organs have a different density to surrounding tissue. This means some of the ultrasound waves are reflected and detected by the transducer and used to form an image.

Question 47

What precautions are taken when using X-rays?

Answer 47

• People are limited in the number of X-rays they can receive
• A thick lead plate prevents radiations reaching healthy tissue during radiotherapy
• Shielded walls containing lead are built around the room
• Workers wear a thick lead apron
• Film badges are used to monitor radiation exposure

Question 48

Describe one use of ultrasound for medical treatment (not medical imaging)

Answer 48

destruction of kidney stones

Question 49

What is a source of a radio wave?

Answer 49

Radio waves re created when an alternating current in an electrical circuit creates an electromagnetic wave

Question 50

What is the effect on the human body of a radiowave?

Answer 50

It passes straight through the body without being absorbed

Question 51

What is 1 use of a radio wave?

Answer 51

It can be used to carry signals (they act as a carrier wave), this is because they have a long wavelength and therefore can travel very far

Question 52

What is the effect on the human body of a microwave?

Answer 52

Some wavelengths of microwave can be absorbed, causing heating of cells, which may be dangerous

Question 53

What is the source of infrared radiation?

Answer 53

All objects give off infrared radiation, the hotter the object, the more infrared radiation given off

Question 54

What is the effect of infrared radiation on the human body?

Answer 54

It is mostly reflected or absorbed by the skin, causing heating. It may cause burns if too much is absorbed

Question 55

What is the effect of visible light on the human body?

Answer 55

It is mainly reflected or absorbed, it may cause some slight heating effects

Question 56

What is the effect on the human body of UV radiation?

Answer 56

UV radiation has a high frequency, so it transfers more energy, therefore causing more damage. It is ionising as it can knock electrons out of their shell. This damages cells which may cause genetic mutations and cancer.

Question 57

What is the effect of x-rays on the human body?

Answer 57

UV radiation has a high frequency, so it transfers more energy, therefore causing more damage. It is ionising as it can knock electrons out of their shell. This damages cells which may cause genetic mutations and cancer.

Question 58

What do waves not transfer?

Answer 58

Matter

Question 59

What is the wavelength of visible light?

Answer 59

400nm to 700nm

Question 60

What are the uses of infrared radiation?

Answer 60

• Optical Fibres
• Remote control handsets
• Infrared scanners and cameras
• Electric heaters and cookers

Question 61

Why is Infrared radiation used in optical fibres?

Answer 61

Infrared radiation is absorbed less than visible light in the glass fibres, this means the information will not be lost

Question 62

Why is infrared radiation used in remote control handsets?

Answer 62

Remote control handsets for TV transmit signals carried by Infrared radiation. When you press a button on the handset, it sends out a sequence of infrared pulses. infrared radiation is used as the infrared pulses can easily be produced and detected electronically

Question 63

Why is infrared radiation used in scanners and cameras?

Answer 63

• Infrared scanners are used in medicine to detect infrared radiation emitted from hot spots on the body surface. These hot areas can mean the tissue beneath is unhealthy
• Infrared cameras can be used to see people, animals, and other hot objects in the dark

Question 64

Why is infrared radiation used in electric heaters and electric cookers?

Answer 64

Infrared radiation is used to heat up objects quickly:

• Electric heaters emit infrared radiation to heat a room quickly
• Electric cookers have halogen hobs as halogen hobs heat up food much faster than conventional hobs. This is because halogen hobs are designed to emit much more infrared radiation than conventional hobs

Question 65

What are the uses of microwaves?

Answer 65

• Communications

* Heating food

Question 66

Why are microwaves used for communications?

Answer 66

Microwaves are used for communications as they can pass through the atmosphere and reach satellites above the earth, they can also carry mobile phone signals. They do not spread out much and are therefore suitable to reach a satellite. The microwave signal is send my a transmitter, where it is received by a satellite receiver dish, the satellite then transmits the signal back towards earth in a different direction where it is received by a satellite dish

Question 67

Why is a microwave used to heat food?

Answer 67

Microwave ovens heat food faster than ordinary ovens. This is because they can penetrate into the food and are absorbed by the water molecules in the food, heating it. The water molecules then transfer this energy to the food around it

Question 68

Why does a microwave oven not become hot like the food that it is cooking?

Answer 68

Microwaves are absorbed by water molecules in the food. The oven itself does not contain any water molecules and therefore does not become hot

Question 69

What are radio waves with a wavelength less than 1m used for?

Answer 69

Transferring signals between TV masts and a TV as they can carry much more energy than longer waves and do not need to travel as far

Question 70

What are radio waves with a wave length greater than 100m used for?

Answer 70

National and international radio stations because they have a much longer range than short-wavelength radio waves

Question 71

What is an alternating current?

Answer 71

a current that repeatedly reverses its direction

Question 72

Explain how a radio wave transfers signals

Answer 72

An oscillator supplies carrier waves to the transmitter in the form of an alternating current.
The audio signal is supplied to the transmitter where it is used to modulate the carrier waves.
The modulated carrier waves from the transmitter are supplied to the transmitter aerial. The varying alternating current supplied to the aerial causes it to emit radio waves that carry the audio signal
When the radio waves are absorbed by the receiver aerial, they induce an alternating current in the receiver aerial, which causes oscillations in the receiver. The frequency of the oscillations is the same as the frequency of the radio waves
The receiver circuit separates the audio signal from the carrier waves. The audio signal is then supplied to a device that sneds out sound waves similar to that received by the microphone.

Question 73

How does an optical fibre work?

Answer 73

optical fibres are very thin glass fibres. They are used to transmit signals carried by visible light or infrared radiation. The light rays cannot escape from the fibre as when they reach the surface of the fibre they are reflected back into the fibre. The light rays are continually reflected until they reach the end of the fibre (the light is not scattered or absorbed).

Question 74

What are the advantages of optical fibre communication?

Answer 74

• Optical fibres carry much more information as the light has a much shorter wavelength than radio waves
• The optical fibres are more secure than radio waves as the signals always stay within the fibres

Question 75

What are the uses of X-rays?

Answer 75

• Medical Imaging
• Radiotherapy
• Detection of internal cracks in metal objects

Question 76

What are radiographs?

Answer 76

An imaging technique using radiation to produce images of internal human structures

Question 77

Why are X-rays used to detect internal cracks in metal objects

Answer 77

The more dense an object is, the more X-rays it absorbs from an X-ray beam passing through it. This different amounts of X-rays received on the opposite side of the metal object can be used to detect if there is a crack inside the metal object

Question 78

What are the uses of gamma radiation?

Answer 78

• Radiotherapy
• Sterilisation
• Radioactive tracers

Question 79

What is a film badge and what does it do?

Answer 79

A device containing photographic film which registers the wearer’s exposure to radiation. This allows the users exposure to radiation to be monitored

Question 80

How can gamma radiation be used in sterilisation?

Answer 80

Gamma rays are extremely high energy. Exposing food to gamma rays kills 99% of disease-carrying bacteria and pathogens. They can also be used to sterilise and kill any harmful bacteria on medical instruments

Question 81

How can gamma radiation be used in radioactive tracing?

Answer 81

A gamma emitting source is injected into the patient, and so its progress around the body is followed as the gamma rays exit the body and are detected outside

Question 82

How can organs made from soft tissue be imaged using an X-ray?

Answer 82

The organ can be filled with a substance called a contrast medium that absorbs X-rays. This enables the interanl surfaces in the organ to be seen on the radiograph.

Question 83

What is a flat-panel detector and what does it do?

Answer 83

A flat panel detector is a small screen that contains a Charge Coupled Device (CCD). The sensors in the CCD convert X-rays to light. The light rays then create electronic signals in the sensors that are sent to a computer, which displays a digital X-ray image

Question 84

What does a radiation dose depend on?

Answer 84

• The type of radiation used
• How long the body is exposed to the radiation
• The energy per second absorbed by the body from the radiation

Question 85

What is the unit for radiation dose?

Answer 85

Sieverts (Sv)

Question 86

What is the difference between X-rays used in imaging and X-rays used in radiotherapy?

Answer 86

The X-rays used for therapy carry much more energy than the X-rays used for imaging. Low-energy X-rays are suitable for imaging because they are absorbed by bones and teeth but they pass through soft tissue and gaps such as cracks in bones. Low-energy X-rays do not carry enough energy to destroy cancerous tumours, so high energy X-rays must be used