P7 - Radioactivity (Coming Up On March Mocks)

Question 1

Give an approximation for the radius of an atom.

Answer 1

1x10^−10 metres

Question 2

What are the three subatomic constituents of an atom?

Answer 2

1. Proton
2. Neutron
3. Electron

Question 3

Where is most of the mass of an atom concentrated?

Answer 3

In the nucleus.

Question 4

Approximately what proportion of the total radius of an atom is the radius of the nucleus?

Answer 4

1/10,000

Question 5

Describe the arrangement of protons, neutrons and electrons in an atom.

Answer 5

● The protons and neutrons are found in the atom’s nucleus
● The electrons are found in discrete energy levels around the nucleus

Question 6

What type of charge does the nucleus of an atom have? Why?

Answer 6

● Positive charge
● The nucleus contains protons and neutrons
● Protons have a positive charge
● Neutrons have no charge

Question 7

Give two ways that an atom’s electron arrangement can be changed.

Answer 7

1. Absorbing electromagnetic radiation
2. Emitting electromagnetic radiation

Question 8

Explain how an atom’s electron arrangement changes when it absorbs EM radiation.

Answer 8

● Electrons move further away from the nucleus
● They move to a higher energy level

Question 9

Explain how an atom’s electron arrangement changes when it emits EM radiation.

Answer 9

● Electrons move closer to the nucleus
● They move to a lower energy level

Question 10

How does the ratio of electrons to protons in an atom result in the atom having no overall charge?

Answer 10

● The number of protons is equal to the number of electrons
● Protons and electrons have equal and opposite charges, so charge cancels

Question 11

What do all forms of the same element have in common?

Answer 11

They all have the same number of protons.

Question 12

What is the name given to the number of protons in an atom?

Answer 12

Atomic Number

Question 13

What is an atom’s mass number?

Answer 13

The total number of protons and neutrons in the atom.

Question 14

What is an isotope of an atom?

Answer 14

An atom of an element that has a different number of neutrons, but the same number of protons.

Question 15

How do atoms turn into positive ions?

Answer 15

● They lose one or more of their outer electrons
● Electrons are negatively charged, so the resultant charge of the atom is positive

Question 16

What may lead to a scientific model being changed or replaced?

Answer 16

The discovery of new experimental evidence which doesn’t agree with the existing theory.

Question 17

How did the plum-pudding model describe the atom?

Answer 17

A ball of positive charge, with negatively charged electrons distributed evenly throughout it.

Question 18

Prior to the discovery of the electron what was believed about the atom?

Answer 18

The atom was believed to be indivisible - a big ball of nothing.

Question 19

Which experiment led to the plum-pudding model being discarded?

Answer 19

Rutherford’s alpha-scattering experiment.

Question 20

What is the name given to the currently accepted model of the atom?

Answer 20

The Bohr nuclear model

Question 21

State the conclusions of the Alpha-Scattering experiment.

Answer 21

● Most of the mass of the atom is concentrated at the centre in the nucleus
● The nucleus is positively charged

Question 22

What reinforces a scientific theory?

Answer 22

When experimental results agree with the hypothesised theoretical calculations and theories.

Question 23

What did James Chadwick’s experiments on the atom prove?

Answer 23

The existence of neutrons.

Question 24

Why do unstable nuclei give out radiation?

Answer 24

● Unstable nuclei undergo decay to become more stable
● As they release radiation their stability increases

Question 25

What is the name of the process in which an unstable nucleus gives out radiation to become more stable?

Answer 25

Radioactive decay

Question 26

Define the activity of an unstable nucleus.

Answer 26

Activity is the rate of decay of a source of unstable nuclei.

Question 27

What is the unit of radioactive activity?

Answer 27

Becquerel (Bq)

Question 28

What is count-rate?

Answer 28

The number of radioactive decays per second for a radioactive source.

Question 29

Give an example of a detector that may be used to measure count-rate.

Answer 29

Geiger-Muller tube

Question 30

State four types of nuclear radiation.

Answer 30

1. Alpha particles
2. Beta particles
3. Gamma rays
4. Neutrons

Question 31

What are the constituents/properties of an alpha particle?

Answer 31

● Two protons and two neutrons (Helium - 4 He 2)
● It is the same as a helium nucleus
● In Nuclear equations, we represent alpha radiation via. Helium.

Question 32

What is the range of an alpha particle through air?

Answer 32

A few centimetres (normally in the range of 2-10cm).

Question 33

What will stop beta radiation from passing through a point?

Answer 33

● A thin sheet of aluminium
● Several metres of air

Question 34

What will stop gamma radiation from passing through a point?

Answer 34

● Several centimetres of lead
● A few metres of concrete

Question 35

Which type of radiation is most ionising?

Answer 35

Alpha radiation.

Question 36

Which type of radiation is least ionising?

Answer 36

Gamma radiation.

Question 37

State any changes to mass or charge that occur due to the emission of a gamma ray.

Answer 37

Both mass and charge remain unchanged.

Question 38

Describe the nature of radioactive decay.

Answer 38

● Random
● It is impossible to predict which nuclei will decay and when (it is only by chance)

Question 39

Define the half-life of a radioactive isotope.

Answer 39

● The time it takes for the number of unstable nuclei in a substance to halve
● The time it takes for the count rate from a sample to fall to half its initial level

Question 40

What is radioactive contamination?

Answer 40

The presence of unwanted radioactive nuclei on other materials.

Question 41

What is irradiation?

Answer 41

● The process of exposing a material to nuclear radiation
● The material does not become radioactive

Question 42

Why is it important for the results of studies on the effects of radiation to be published and shared with other scientists?

Answer 42

● To allow the findings to be independently checked
● This is known as peer review

Question 43

Give 4 sources of background radiation.

Answer 43

1. Rocks (i.e. granite, etc.)
2. Cosmic rays from space
3. Nuclear weapon testing
4. Nuclear accidents

Question 44

How should background radiation be dealt with in calculations?

Answer 44

The background count should be subtracted from any readings before calculations (half life etc.) are attempted.

Question 45

What is the unit used to measure radiation dosage?

Answer 45

Sieverts (Sv).

Question 46

How many millisieverts equal 1 sievert?

Answer 46

1000 millisieverts = 1 sievert

Question 47

Why might the radiation dosage that different people experience differ?

Answer 47

● Some occupations involve working with radiation
● Background radiation differs with location due to things such as the locality of nuclear power stations or radiation related testing

Question 48

What factor determines how dangerous a particular radioactive isotope is?

Answer 48

The half-life of the isotope.

Question 49

Why are isotopes with long half-lives particularly harmful?

Answer 49

● They remain radioactive for much longer periods of time
● They must be stored in specific ways to avoid humans and the environment from being exposed to radiation for too long

Question 50

State two uses of nuclear radiation in the field of medicine.

Answer 50

1. Examining of internal organs
2. Controlling and destroying unwanted organisms/tumours, etc.

Question 51

How is radiation used in sterilisation?

Answer 51

Gamma emitters are used to kill bacteria/parasites on equipment.

Question 52

Explain the process of radiotherapy.

Answer 52

● Gamma emitters direct gamma rays at the cancerous cells
● The cancerous cells absorb the radiation and are killed

Question 53

How are medical tracers chosen?

Answer 53

• They should have a short half life and decay into a stable isotope which can be excreted.
• They should only release gamma radiation since it is weakly ionising and can easily pass through body tissue without damaging it.

Question 54

What is nuclear fission?

Answer 54

The splitting of large, unstable nuclei to form smaller more stable nuclei (+the emission of spare neutrons).

Question 55

Give an example of a fissionable isotope.

Answer 55

Uranium - 235

Question 56

What usually needs to happen to induce fission?

Answer 56

● The unstable nuclei must absorb a neutron

HOWEVER

● Spontaneous fission (where no neutron absorption occurs) is rare, but can happen.

Question 57

Alongside two smaller nuclei, what else is emitted in a fission reaction?

Answer 57

● Two or three neutrons
● Gamma rays
● Energy

Question 58

What form of energy do all fission products have?

Answer 58

Kinetic energy.

Question 59

What takes place during a chain reaction in a nuclear reactor?

Answer 59

● An unstable nucleus absorbs a neutron
● The nucleus undergoes fission and releases 2 or 3 further neutrons
● These induce more fission, which results in a chain reaction

Question 60

What is the consequence of an uncontrolled chain reaction?

Answer 60

● The rate of fission events becomes to high and results in the production of too much energy
● This can lead to a nuclear explosion

Question 61

What are the three main components of the core a nuclear reactor?

Answer 61

1. Fuel rods
2. Control rods
3. Moderator

Question 62

What is the role of the moderator in a nuclear reactor?

Answer 62

To slow down the neutrons so they are travelling at speeds which allow them to be absorbed by fissile nuclei and cause nuclear fission.

Question 63

How is the chain reaction in a fission reactor kept under control?

Answer 63

● Control rods are positioned in between the fuel rods
● The rate of fission is controlled by moving these rods up and down
● The lower the rods are inserted, the slower the rate of fission (vice versa)

Question 64

What term is used to describe nuclei in which fission can be induced through the absorption of slow neutrons?

Answer 64

Fissile Nuclei

Question 65

What is nuclear fusion?

Answer 65

The joining of two light nuclei to produce a heavier nuclei and release energy.

Question 66

Name two isotopes of hydrogen which are commonly used in nuclear fusion.

Answer 66

Deuterium and Tritium

Question 67

Which releases more energy, nuclear fission or nuclear fusion?

Answer 67

Nuclear fusion.

Question 68

Explain the difficulty of generating energy through nuclear fusion.

Answer 68

Fusion requires very high temperatures which in itself requires large quantities of energy and also requires casing which can withstand them.

Question 69

Explain why nuclear fusion is currently not a viable way to produce energy on Earth.

Answer 69

With current equipment/techniques, the energy required is greater than the energy produced, resulting in energy net loss.

Question 70

Write two difference between the radiation from uranium and the radiation from a lamp

Answer 70

The radiation from uranium consists from particles whereas radiation from the lamp consists of waves - this is infrared radiation which is an electromagnetic wave.

Question 71

Write two differences between radioactive atoms compared with atoms in a lamp filament

Answer 71

Radioactive atoms have unstable nuclei ,whereas, the lamp in the filament have stable nuclei. The decay of the radioactive atom cannot be prevented whereas the atoms within the filament lamp stop emitting radiation when the lamp is turned off.

Question 72

The radiation from a radioactive source is stopped by paper. Name the type of radiation that the source emits.

Answer 72

This is alpha radiation

Question 73

The radiation from a different source goes through this paper. Name the type of radiation that this source emits.

Answer 73

This is beta or gamma radiation.

Question 74

Name the type of radiation from radiative sources that is the most penetrating.

Answer 74

Gamma radiation

Question 75

A Geiger muller counter clicks very rapidly when a certain substance is brought near it:

a. Describe the substance that the made the Geiger counter click

b. When the Geiger muller tube was near the substance, the counter clicked much less when a sheet of paper was placed between the substance and the tube. Explain why the counter clicked much less.

Answer 75

A. The substance emitting ionising radiation would cause the Geiger counter to click, this showing that the substance is radioactive.

B. The substance emitted alpha radiation in which was absorbed by the geiger muller tube, preventing most of the radiation emitted from the substance reaching the geiger muller tube.

Question 76

Describe two differences between the nuclear model and the plum pudding model.

Answer 76

The the nuclear model of the atom all of the positive charge was concentrated within a nucleus whereas, in the plum pudding model positive charge was nuclear model and spread throughout the atom.

In the nuclear model of the atom the mass of the atom was concentrated within a nucleus where as in the plum pudding model this was spread out throughout the atom.

Question 77

Explain why the alpha-particle scattering experiment lead to the acceptance of the nuclear model of the atom and the rejection of the plum pudding model.

Answer 77

The nuclear model of the atom showed why their was particle scattering at large angles where, where as in the plum pudding model this large-angle scattering shouldn’t be observed.

Question 78

key points

Answer 78

› Isotopes of an element are atoms with the same number of protons but different numbers of neutrons, therefore have the same atomic number but different mass numbers.

During alpha decay:
> Nucleus looses 2 protons and 2 neutrons
> 2 protons and 2 neutrons emitted as an alpha particle

During beta decay:
> A neutron in the nucleus changes into a protons
> An electron is created in the nucleus and instantly emitted.

Question 79

Explain why a radioactive source is stored in a lead-lined box.

Answer 79

To prevent radiation being emitted in to the environment, preventing radiation harming people and nearby objects.

Question 80

Name the type of radiation from radioactive substances that it most easily absorbed.

Answer 80

Alpha radiation

Question 81

Name the type or types of radiation from a radioactive source that are stopped by a thick aluminium plate.

Answer 81

Alpha and beta radiation

Question 82

Name the type of radiation from a radioactive source that is:
A. uncharged
B. Positively charged
C. Negatively charged

Answer 82

A. Gamma radiation
B. Alpha radiation
C. Beta radiation

Question 83

Name the type radiation from a radioactive source that:
A. Has the longest range in air
B. Has the greatest ionising power

Answer 83

A. Gamma radiation
B. Alpha radiation

Question 84

Explain why ionising radiation is dangerous

Answer 84

It has the ability to knock electrons from atoms turning them into ions this ionisation damages cells and can be passed on in which causes cancer.

Question 85

Explain how you would use a Geiger counter to find the range of radiation from a source of alpha radiation.

Answer 85

• Firstly, place the geiger muller tube in a holder so that it can be moved horizontally.
• Move the tube as close as possible to the radioactive source so that radiation is detected.
• Move the tube gradually away from source until count rate decreases significantly almost stopping, distance from the end of tube to source is range of alpha radiation.

Question 86

Explain why gamma radiation is not suitable for monitoring the thickness of the metal foil.

Answer 86

Very little gamma radiation is absorbed by the foil, it would all pass straight through the foil therefore the thickness of the foil wouldn’t effect the detector reading.

Question 87

Key points

Answer 87

> Alpha radiation is stopped by paper and has a range of a few centimetres in air, it consists of particles, each composed of two protons and two neutrons - it has the greatest ionising power.
Beta radiation is stopped by a thin sheet of metal and has a range of about one metre in air. It consists of fast-moving electrons emitted from the nucleus, it is less ionising than alpha radiation and more ionising than gamma radiation.
Gamma radiation is stopped by thick lead and has an unlimited range in air. It consists of electromagnetic radiation.
Alpha beta and gamma radiation ionise substances they pass through, ionisation in a living cell can damage or kill the cell.

Question 88

Define the half-life of a radioactive substance.

Answer 88

The half-life of a radioactive isotope is the average time it takes for the number of nuclei of the isotope in a sample to halve.

Question 89

Key points

Answer 89

> Half-live of a radioactive isotope is the average time it takes for the number of nuclei of the isotope in a sample to halve.
The count rate of a geiger counter caused by a radioactive source decreases as the activity of the source decreases.
The number of atoms of a radioactive isotope and the count rate both decreases by half every half-life.
The count rate after (n) half-lives = the initial count rate/2^n

Question 90

Radiation from radioactive sources is used for different purposes, identity the type of radiation that you use and give a reason for your choice:

A. Obtaining an image of an internal organ

B. Finding out whether a kidney in a patient is blocked

Answer 90

A. Gamma radiation because this can be identified outside of the body.

B. Gamma radiation because a radioactive source would needed to be injected into to the organ to be imaged so this type of radiation needs to the least amount of damage whilst in the body, gamma radiation would be used because this has the least ionising power. The gamma radiation will pass through the tissue and can be detected using a gamma camera.

Question 91

Give two sources of background radiation that can originate in the environment

Answer 91

• Food and Drink
• Radon Gas

Question 92

Describe how nuclear radiation is used to destroy a tumour using a radioactive implant

Answer 92

• A small amount of a radioactive isotope is placed within the tumour
• radiation from the isotope destroys the cancer cells however the half-life of the radioactive isotope is not long enough to destroy any healthy cells surrounding the tumour in the process
• Also, the half-live of the radioactive isotope is short so that unstable nuclei decay before radiation destroys the other healthy cells.

Question 93

State one type of radiation emitted by a radioactive implant

Answer 93

Gamma radiation

Question 94

A. Explain why radioactive isotopes used in a kidney scan should have a half-life that is not too short and too long.

B. Evaluate whether this consideration is important for a temporary radioactive implant.

Answer 94

A. If the half-life of the radioactive isotope is too long the patient is exposed to ionising radiation unnecessary in which can damage healthy cells causing further health problems. If the half-life of the radioactive isotope is too short the radioactive isotope decays too much before the scan is complete.

B. If the half-life is too long the radioactive isotope will damage surrounding health cells, around the tumour. If the half-life is too short the radioactive isotope won’t destroy the tumour, and the radioactive isotope will decay before destroying the tumour.

Question 95

Write down the ideal properties of a radioactive tracer

Answer 95

• Short half-life
• Has the least ionising power: non-toxic to the body
• Decays into a stable isotope

Question 96

When a radioactive isotope is used explain why it is best to use a
radioactive isotope that decays into a stable isotope.

Answer 96

› Stable isotopes are not dangerous within the body compared to unstable isotopes that are are dangerous to the body because this emits ionising radiation.

Question 97

Key points

Answer 97

> Radioactive isotopes are used in medicine for medical imaging, treatment of cancer and as tracers to monitor organs.
How useful a radioactive isotope is depends on:
its half-life
the type of radiation it gives out
For medical imaging with a radioactive isotope and for medical tracers, the half life should not be too long or too short.
A gamma beam or radioactive implant can destroy cancer cells in a tumour.

Question 98

Natural uranium consists mainly or uranium-238. Uranium fuel is produced from natural uranium by increasing the proportion of uranium 235 in it.

a. Describe what happens to a uranium-235 nucleus when a neutron collides with and causes it to undergo nuclear fission.

b. Describe what happens to a uranium-238 nucleus when a neutron collides with it

Answer 98

a. The nucleus splits into two fragments and releases energy and two/three neutrons.

b. The nucleus absorbs the neutron without undergoing fission however forms an unstable nucleus in which goes through radioactive decay.

Question 99

A nuclear reactor, describe the purpose of the control rods.

Answer 99

To absorb fission neutrons, and keep the chain reaction under control by maintaining an even rate of fission.

Question 100

If the control rods in a nuclear reactor are pulled further into the reactor core, write and explain what would happen to the number of fission neutrons in the reactor.

Answer 100

More fission neutrons are absorbed so the number o fission neutrons within the reactor will decrease. This means that the amount of energy from nuclear fission would also decrease.

Question 101

Explain why the core of a nuclear reactor is in a container made of thick steal and is surrounded by thick concrete walls.

Answer 101

The steal is used because this withstands very high temperature and pressure in the core, the thick concrete walls absorb ionising radiation that passes through the steal walls.

Question 102

Key points

Answer 102

> Nuclear fission is the splitting of an atoms nucleus into two smaller nuclei and the release of two or three neutrons and energy
Induced fission occurs when a neutron is absorbed by a uranium-235 nucleus or a plutonium-239 nucleus and the nucleus splits. Spontaneous fission occurs without a neutron being absorbed.
A chain reaction occurs in a nuclear reactor when each fission event causes further fission events.
In a nuclear reactor, control rods absorb fission neutrons to ensure that on average only one neutron per fission goes on to produce further fission.

Question 103

Explain why the plasma of light nuclei in a fusion reactor needs to be very hot.

Answer 103

This is so that there is an enough kinetic energy to overcome the force of repulsion between the nuclei so that they fuse.

Question 104

Explains why a fusion reactor needs more energy that it produces would not be much use.

Answer 104

This is because the energy input would be greater than the energy output therefore no energy would be produced overall.

Question 105

Give two advantages and two disadvantages that a fusion reactor has compared with a fusion reactor

Answer 105

Advantages:
> Nuclear fusion fuel are easily available
> Fusion products are less reactive than nuclear fission products.

Disadvantages:
> Very large current needed to heat the plasma and start fusion
> Fission reactors produce far much more power than fusion products.

Question 106

Key points

Answer 106

> Nuclear fusion is the process of forcing the nuclei of two atoms close enough together so that they form a single larger nucleus
Nuclear fusion can be brought about by making two light nuclei collide at a very high speed.
Energy is released when two light nuclei are fused together. Nuclear fusion in the sun’s core releases energy.
A fusion reactor needs to be at a very high temperature before nuclear fusion can take place.
The nuclei to be fused are difficult to contain.

Question 107

Explain why radioactive waste needs to be stored:

a. Securely

b. For many years

Answer 107

a. This is because the radioactive waste propose a danger to people and the environment if this is released into the environment.

b. This is because radioactive waste contain radioactive isotopes with long half-lives

Question 108

Explain why a source of alpha radiation is very dangerous inside the human body but not as dangerous outside it.

Answer 108

This is because alpha radiation has the greatest ionising power, this means that this is easily absorbed by tissues in the body and has the ability to turn atoms into ions harming cells, in which can cause cancer. Outside this is less dangerous because this has the least penetrating power.

Question 109

In some locations, the biggest radiation hazard comes from radon gas that steeps up through the ground and into buildings.

A. Explain why radon gas is dangerous in the house.

B. Describe one way of making an existing house safe from radon gas.

Answer 109

A. This is because typically radon gas will be the biggest concentrated inside then outside. People could inhale the radiation hazard/breath this in which causes the lungs to be exposed comes from radon to radiation. This exposes people to be exposed to gas that steeps up
alpha radiation. Therefore the ionising affect in tissues in terms of damaging cells and causing cancer.

B. Pipes can be installed to pump radon gas out of the house before this reaches the ground, when doing so the top of the outlet pipe from the pump needs to be high up the outside of the house.

Question 110

Suggest whether the UK government should replace existing nuclear reactors with new reactors, either fusion, fission or both. Answer this question by discussing the benefits and drawbacks of new fission and fusion reactions.

Answer 110

Benefits:
> No green house emissions
> large-scale generation of electricity compared with renewable supplies that take up much larger areas

Drawbacks:
> Long term-storage of radioactive waste is needed
> Possible escape of radioactive substances into the environment

Question 111

Key points

Answer 111

> Radon gas is an alpha emitting isotope that seeps into house through the ground in some areas.
There are hundred of fission reactors safely used in the world. None of them is the same type as the Chernobyl reactor that exploded.
Nuclear waste contains may different radioactive isotopes that emit nuclear radiation for many years. The radiation is dangerous because it can cause cancer.
Nuclear waste is stored in safe and secure conditions for many years after unused uranium and plutonium (to be used in the future ) are removed from it.