SP6 - Radioactivity

Question 1

SP6a - What did the plum pudding model look like?

Answer 1

Made of positively charged mass with negatively charged electrons scattered throughout.

Question 2

SP6a - What was the experiment that Erenest Rutherford conducted and what did he do?

Answer 2

The gold foil experiment.
He fired alpha particles through various substances e.g. thin gold foil.
Firing alpha particles from a source and having a detector behind whatever substance he used so that he could find out if the particles pass through.

Question 3

SP6a - What were the results drawn of the gold foil experiment and what conclusions were drawn from this?

Answer 3

Most particles passed straight through
Some were deflected slightly
Others were bounced back
This means that most of an atom is empty space.
Aditionally, atoms have a concentrated area of positive charge.
This is why some were reflected back.

Question 4

SP6a - What is the radius of a nucleus and the radius of an atom?

Answer 4

N: 1x10-15
A: 1x10-10
(Atom is 10,000 times bigger)

Question 5

SP6b - What are the charges, locations and relative masses of protons neutrons and electrons?

Answer 5

P:
Inside nucleus
+1 charge
mass of 1

N:
Inside nucleus,
no charge
mass of 1

E:
Orbiting nucleus
-1 charge
mass of 1/1835 (negligible)

Question 6

SP6b - What does the atomic number of an atom represent?

Answer 6

The number of protons in the nucleus.
Different elements have different proton numbers

Question 7

SP6b - What does the mass number of an atom represent?

Answer 7

The mass of the atom.
Protons plus neutrons.

Question 8

SP6b - What does the mass number of an atom represent?

Answer 8

The mass of the atom.
Protons plus neutrons

Question 9

SP6b - What is an isotope?

Answer 9

Two atoms of the same element with different masses (Same atomic number but different mass numbers)

Question 10

SP6c - What can happen if an atom gains enough energy and what does this create?

Answer 10

An electron can move to a higher orbit.
When it returns back to its orbit it emits energy in the form of visible light.
The wavelength (and therefore colour) depends on the change in orbit.

Question 11

SP6c - What do we use to see the light produced by an atom?

Answer 11

An emission spectrum.
A black line spectrum with coloured lines along it displaying which wavelengths were emitted.

Question 12

SP6c - How will the emission spectrum of an element relate to its absorption spectrum and what does this tell us?

Answer 12

The coloured areas on the emission spectrum will be blacked out on the absorption spectrum and vice versa.
This means that the wavelengths that are emitted are also the wavelengths that are absorbed.

Question 13

SP6c - If an atom gains more energy than needed to just move an electron to another orbit, what can happen and what is this called?

Answer 13

The atom can loose an electron.
This is called ionisation as the atom has become an ion

Question 14

SP6c - What is an ion?

Answer 14

An atom that is charged due to a gain or loss of electrons.

Question 15

SP6c - What do we call radiation that causes an atom to loose an electron?

Answer 15

Ionising radiation

Question 16

SP6d - What is background radiation?

Answer 16

Background radiation is the radiation that is present all around in the environment

Question 17

SP6d - What are the six main sources of background radiation

Answer 17

Medical
Ground and buildings
Food and drink
Radon gas
Cosmic rays
Nucelar

Question 18

SP6d - Which source of backgrond radiation accounts for most of it and approximately how much is it?

Answer 18

Radon gas just under 50%

Question 19

SP6d - What are ways of measuring radioactivity?

Answer 19

With a Geiger
Mueller tube / counter Meausres the count rate
Photographic film (badges called dosimeters) Gets darker / changes colour as its exposed to more radioactivity

Question 20

SP6d - Before measuring the radioactivity of a source what must be done?

Answer 20

Measure the background radiation so you can take this away from the radiation that you measure or else you value will be the source’s radiation + the background radiation.

Question 21

SP6e - What is an alpha particle?

Answer 21

A helium nucleus consisting of 2 protons and 2 neutrons

Question 22

SP6e - What is a beta minus particle?

Answer 22

An electron

Question 23

SP6e - What is a beta plus particle?

Answer 23

A position (A positive electron)

Question 24

SP6e - What don’t gamma rays have that other radiation does.

Answer 24

Since it is an EM wave and not a particle, it doesn’t have a charge.

Question 25

SP6e - Rank and explain the types of radiation in terms of ionisation.

Answer 25

Alpha (Most)
Beta (+/-)
Gamma (Least)
Since alpha particles are emitted at high speeds thay carry most energy and are best at ionisation.

This is the opposite for Gamma

Question 26

SP6e - Rank the types of radiation in terms of penetration / range.

Answer 26

Gamma (Most)
Beta (+/-)
Alpha (Least)

Question 27

SP6e - What does it take to stop each type of radiation?

Answer 27

Alpha: paper/skin/few cm of air
Beta: few m of air/3mm of alluminium
Gamma: few Km of air/ few cm of lead/ several m of concrete

Question 28

SP6f - What occurs in alpha decay?

Answer 28

An unstable nucleus looses 2 protons and 2 neutrons (an alpha particle) causing its mass number to decrease by 4 and its atomic number to decrease by 2.

Question 29

SP6f - What occurs in beta minus decay?

Answer 29

A neutron decays into a proton and a high energy electron.

Question 30

SP6f - What occurs in beta plus decay?

Answer 30

A proton decays into a neutron and a high energy positron.

Question 31

SP6f - What occurs in gamma decay?

Answer 31

An unstable nucleus emits a gamma ray becoming more stable.

Question 32

SP6g - What is a half-life?

Answer 32

The time it takes for half the unstable nuclei of a substance to decay
The time it takes for the count rate of a radioactive substance to decrease by half.

Question 33

SP6g - If a substance has a half-life of 2 minutes and has a count rate of 128Bq, what will its count rate be after 8 minutes?

Answer 33

8/2 = 4

24 = 16

128/16 = 8

8Bq

Question 34

SP6h - How might you use radiation to treat food?

Answer 34

Irradiating fresh produce makes it safer to eat and increases its life time.

Question 35

SP6h - How might radioactivity be used in hospitals?

Answer 35

To detect and treat cancer (radiotherapy and PET scans)
To sterilise equipment

Question 36

SP6h - How may radioactivity be used when a pipe leaks?

Answer 36

A gamma source is added to water and passed through the pipe and a geiger tube is placed on top.
Areas with leaks have higher levels of radiation.

Question 37

SP6h - When making paper, how may radioactivity be used?

Answer 37

A beta source is placed on one side of the paper and a detector on the other.
When the detector detects too few beta particles passing through, the paper is too thin and so adjusts the force applied to the paper.
When too many pass through the opposite happens.

Question 38

SP6i - What is it called when the DNA inside a cell is damaged by ionising radiation?

Answer 38

Mutation

Question 39

SP6i - Why do mutations in cells have long term effects?

Answer 39

Because they can be passed down through generations

Question 40

SP6i - How do medical staff reduce their exposure to radioactive sources?

Answer 40

Increasing their distance
shielding the source
Minimising time spent near the source
Wearing dosimeter badges to monitor exposure

Question 41

SP6i - What sort of sources are used when treating cancer patients?

Answer 41

Ones with short half - lives

Question 42

SP6i - What is the difference between irradiation and contamination?

Answer 42

A substance becomes irradiated if exposed to a radioactive source but is contaminated if it is still radioactive even when the source is taken away.

Question 43

SP6i - How may a nuclear accident affect food supply?

Answer 43

Water and soil nearby gets contaminated which contaminates the crops and plants.
Animals that feed on this also become contaminated,

Question 44

SP6j - How may a gamma camera be used in medical diagnosis?

Answer 44

A radioactive tracer with a short half - life is injected into the blood stream.
The gamma camer detects areas of high radiation.
This can help in diagnosing internal bleeding.
The tracer is made using radioactive glucose molecules because cancer cells take up glucose quickly.

Question 45

SP6j - How does a PET scan work?

Answer 45

A tracer that has beta plus decay is injected into the patient.
When the emitted positron meets an electron, they annihilate each other and release two gamma rays in opposite directions.
The PET scanner moves around the patient detecting where gamma radiation originates from forming a series of images.

Question 46

SP6j - What is internal radiotherapy and what are the pros and cons?

Answer 46

A beta emitter is placed next to the tumour inside the body.
Pros:
Can treat cancer and potentially remove it
Cons:
hHs side effects including tiredness, sickness and diarrhoea.

Question 47

SP6j - What is external radiotherapy?

Answer 47

Several beams of gamma rays, X-rays or protons are fired at the tumour from multiple directions.

Question 48

SP6j - Why is external radiotherapy preferred to internal radiotherapy?

Answer 48

Internal radiotherapy can harm can harm healthy cells while external radiotherapy specifically targets the cencer cells. Internal radiotherapy is only used in situations where the benefit greatly exceeds the risk.

Question 49

SP6k - What are the pros and cons of using nuclear energy over fossil fuels to generate energy?

Answer 49

Pros:
Sources of uranium will take a lng time to expire
They store mre energy per kg
They cause less deaths
The stations themselves don’t release GH gases

Cons:
The extraction process release many GH gases
Waste substances can contaminate environment if not stored properly
Very expensive to decomission safely
Nuclear accidents cause many deatsh and long term effects

Question 50

SP6l - What is nuclear fission?

Answer 50

When an unstable nucleus absorbs a neutron, it decays releasing two smaller daughter nuclei, neutrons and energy.

Question 51

SP6l - If the neutrons released by nuclear fission go on to cause another nucleus to decay, what is this called?

Answer 51

A chain reaction

Question 52

SP6l - What are the jobs of the moderator and the control rods in a a reactor?

Answer 52

CR: Rods that contain elements that absorb neutrons. Can be lowered or raised to control how much reation is taking place and how much energy is generated.
M: Material which slows down neutrons. This allows the neutrons to be absorbed increasing rate of reaction

Question 53

SP6l - How does the energy generated in a nuclear reactor get transferred into electrical energy?

Answer 53

Thermal energy is generated from the reaction process.
This is used to heat up a source of water turning it into steam.
This steam turns turbines which turn and power the generator generating electricity

Question 54

SP6m - What is nuclear fusion and where does it take place?

Answer 54

Nuclear fusion occurs when two smaller nuclei (typically hydrogen) join together to form a larger atom (helium) and energy in the form of gamma .

Question 55

SP6m - What conditions are needed for nuclear fusion to occur and why?

Answer 55

Nuclear fusion requires that the nuclei are travelling at over 1,000,000 m/s and in temperatures hotter than the sun.
This is to overcome the electrostatic repulsion that would otherwise repel the two like charged nuclei away from each other.

Question 56

SP6m - Why aren’t there any working nuclear fusion stations?

Answer 56

To maintain conditions required to overcome elctrostatic repulsion is extremely costly and hard to sustain on earth