4 Radioactivity and Particles

Question 1

Name the three types of radioactive particles?

Answer 1

alpha, beta, gamma

Question 2

Describe an alpha particle

Answer 2

It is a helium nucleus

Question 3

Describe a beta particle

Answer 3

It is a high speed electron

Question 4

Describe gamma radiation

Answer 4

EM wave

travels at the speed of light

No charge or mass

Question 5

Name the subatomic particles in an atom

Answer 5

proton

neutron

electron

Question 6

What are the relative masses of the proton, neutron and electron?

Answer 6

proton = 1

neutron = 1

electron = 0

Question 7

Define the atomic number

Answer 7

number of protons in an atom

Question 8

Define the mass number

Answer 8

Number of protons + neutrons in an atom

Question 9

What is another name for the mass number?

Answer 9

nucleon number

Question 10

What are the relative charges of the proton, neutron and electron?

Answer 10

proton = +1

neutron = 0

electron = -1

Question 11

Where are the electrons found in an atom?

Answer 11

In shells in the space around the nucleus

Question 12

Where are the protons and neutrons found in the atom?

Answer 12

in the nucleus

Question 13

atoms are neutral, so what is true about the number of protons and electrons?

Answer 13

number of protons = number of electrons

Question 14

What is an isotope?

Answer 14

Atoms of the same element with same number of protons but different number of neutrons.

Question 15

Two common isotopes of carbon are C-12 and C-14

(Carbon has an atomic number of 6)

Name one similarity and two differences about these isotopes?

Answer 15

They both have 6 protons

C-14 has 8 neutrons but C-12 only has 6 neutrons.

C-14 is an unstable isotope of carbon and C-12 is a stable isotope

Question 16

What is another name for an unstable isotope?

Answer 16

radioisotope or radioactive isotope

Question 17

Why does an unstable isotope break down?

Answer 17

An ustable isotope has too many or too few neutrons in the nucleus which makes it emit alpha, beta, neutron or gamma radiation

Question 18

Name four types of radiation

Answer 18

alpha

beta

neutrons

gamma

Question 19

Radioactive isotopes decay spontaneously.

What does this mean?

Answer 19

It means that you can’t say when any one of them is going to decay and you can’t do anything to at all to make a decay happen. It is a random process.

Question 20

Which type of radiation occurs without changing the radioisotope into a new element?

Answer 20

gamma

Question 21

Name the three types of radiation which will change a radioisotope into a new element.

Answer 21

alpha

beta

neutrons

Question 22

There is low level background radiation all around us all the time. It comes from….

Answer 22

• 1. Rocks, soil, buildings and food (from Earth)
• 2. cosmic rays from space
• 3. living things
• 4. radiation due to human acitvity - nuclear waste, nuclear fall-out

Question 23

Nuclear radiation causes ionisation. What is ionisation?

Answer 23

When radiation bashes into atoms, knocking electrons from them.

These atoms are turned into ions which are charged

Question 24

How can we detect ionising radiation?

Answer 24

Geiger-Muller tube - GM tube OR photographic film

Question 25

Radiation is less penetrating if it is….

Answer 25

more highly charged

more massive

slower moving

Question 26

Radiation is more penetrating if it is….

Answer 26

less charged

less massive

faster moving

Question 27

Radiation is more ionising if it is….

Answer 27

more highly charged

more massive

slower moving

Question 28

Radiation is less ionising if it is….

Answer 28

less charged

less massive

faster moving

Question 29

Radiation is more penetrating if it is _________ ionising

Answer 29

less ionising

Question 30

Radiation is less penetrating if it is ____________ ionising

Answer 30

more ionising

Question 31

I am a radioactive particle.

I am big, heavy and slow-moving.

What am I?

Answer 31

An alpha particle

Question 32

I am a radioactive particle

I am small, light and fast moving

What am I?

Answer 32

I am a beta particle

Question 33

I am a type of radiation

I have no mass or charge and I travel at the speed of light.

What am I?

Answer 33

gamma radiation

Question 34

Place alpha, beta and gamma in order of penetration from least to highly.

Answer 34

alpha < beta < gamma

Question 35

Why are alpha particles strongly ionising?

Answer 35

They are highly charged (+2), massive and move slowly

Question 36

Which radiation can be deflected by a magnetic field?

Answer 36

only alpha and beta as they are both charged

Gamma is not charged- therefore not deflected in a magnetic field

Question 37

What happens to the atomic number and mass number of a radioactive isotope when they release an alpha particle?

Answer 37

atomic number goes down by 2

mass number goes down by 4

Question 38

Different radiations can penetrate by different amounts

You can identify the type of radiation by its penetrating power.

Alpha particles are blocked by…

Answer 38

paper, skin or a few cm of air

Question 39

Different radiations can penetrate by different amounts

You can identify the type of radiation by its penetrating power.

Beta particles are blocked by…

Answer 39

thin metal (5mm of aluminium) or 30 cm of air

Question 40

Different radiations can penetrate by different amounts

You can identify the type of radiation by its penetrating power.

Gamma particles are blocked by…

Answer 40

thick lead or very thick concrete

Question 41

Gamma emission always happens after beta or alpha decay. Explain why

Answer 41

You never just get gamma emission

Gamma waves are emitted from a nucleus after it has decayed and is still in an ‘excited state’

Question 42

Gamma rays are weakly ionising because they tend to pass through rather than collide with atoms. But eventually they hit something and do damage.

Why do gamma rays behave this way?

Answer 42

They have no charge, no mass and move at the speed of light.

Question 43

Why are alpha particled deflected by a magnetic field?

Answer 43

They are charged (+2)

Question 44

A geiger-Muller tube gives a count rate. What is count rate?

Answer 44

The number of radioactive particles reaching the counter per second

Question 45

Why is the count rate different from the overall activity of a radioactive sample?

Answer 45

The count rate is the number of particles reaching the GM tube per second NOT the total number of radioactive particles the sample emits per second.

Question 46

Radioactive sources can be dangerous if you don’t use them properly.

Describe three safety procedures

Answer 46

1. keep radioactive sources in a lead lined box when not in use
2. Pick up radioactive sources using long-handled tongs
3. Do not point radioactive sources at anyone- keep a safe distance from them.

Question 47

A teacher carried out an investigation to work out which radiation was emitted from a radioactive rock found near their school.

What equipment will they need?

Answer 47

• GM tube and counter
• paper
• 5 mm of aluminium
• thick lead
• ruler
• stopwatch

Question 48

A teacher carried out an investigation to work out which radiation was emitted from a radioactive rock found near their school.

They need to find the background count first. Explain how this is done.

Answer 48

• Remove any sources and return them to their lead cases.
• Measure the background count for 2 minutes
• Repeat this three times
• Calculate the mean background count
• Count rate = mean count/ 120 seconds

Question 49

A teacher carried out an investigation to work out which radiation was emitted from a radioactive rock found near their school.

They found the back ground count. The first few steps of the method are written below. How should they use the materials (paper, 5mm of Al) to determine which radiation is emitted?

1. Place the GM tube 1 cm from the rock sample with no material present
2. Measure the count for 30 seconds
3. Repeat this three times
4. Calculate the mean count
5. Calculate the count rate - count rate = mean count/30s
6. Subtract the background count to find the corrected count rate.

Answer 49

7. Repeat steps 2-6 with paper between the rock and GM tube. If the count rate remains the same - no alpha is emitted.
8. Repeat steps 2-6 with 5mm of aluminium between the rock and GM tube. If the count rate remains the same- no beta is emitted
9. If there is still a count rate (it has not dropped to zero) after step 8 then gamma is emitted

Question 50

What is true about a balanced nuclear equation?

Answer 50

Overall charge (proton number) and mass (mass number) have the be the same on both sides of the equation.

Question 51

Write the balanced equation for the beta decay of carbon-14

The atomic number of carbon is 6

Answer 51

Question 52

What is the mass number and proton number of an alpha particle?

Answer 52

Question 53

What is the mass number and proton number of a beta particle?

Answer 53

Question 54

What is the mass number and atomic number of gamma radiation?

Answer 54

Question 55

Write the balance nuclear equation for the alpha decay of Radium-226

The atomic number of radium is 88

Answer 55

Question 56

Write the balanced nuclear equation for gamma emission from technecium-99

The atomic number of Tc is 43

Answer 56

Question 57

Energy is released in a fusion reaction because…

A- there is a gain in mass by the nuclei involved in the reaction

B- there is a loss of mass from the nuclei involved in the reaction

C- protons are turned into neutrons during the reaction

Answer 57

B

there is a loss of mass from the nuclei involved in the reaction

Question 58

In a nuclear reactor, a uranium-235 nucleus can split when…

A ..it is absorbs gamma radiation

B…it collides with an electron

C… it collides with a fast moving neutron

D…it collides with a slow moving neutron

Answer 58

D.. it collides with a slow moving neutron.

The moderator (often water or graphite) is used to slow the fast moving neutrons so that the reaction can continue.

Question 59

True or False?

When a radioactive nucleus emits a betal particle, its atomic number increases

Answer 59

True

A beta particle is a electron, in the nucleus a neutron transforms into a proton and electron (which is emitted)

n –> p⁺ + e^-

Question 60

True or False

Radioactive waste from a nuclear power station is often diffciult to dispose of safely because it has a long half-life

Answer 60

True

It takes around 70 year to decommision a nuclear power station. Nuclear waste must first drop to a safe level before transporting it.

Question 61

The count rate of a radioactive sample falls from 130Bq to 65Bq in 15 minutes. What is its half life?

Answer 61

130Bq –> halves to 65Bq in one half life. This took 15 minutes to happen….

Therefore the half life is 15 minutes

Question 62

Nuclear fission reactions release high-energy neutrons. The role of the moderator in a nuclear reactor is to…

A. limit the rate of fission by absorbing excess neutrons

B. slow the neutrons down so they can be absorbed by uranium nuclei

C. transfer energy from the neutrons to the water in the heat exchanger.

Answer 62

B. slow the neutrons down so they can be absorbed by uranium nuclei

Question 63

What happens in nuclear fusion?

A. One heavy nucleus emits a beta particle

B. One heavy nucleus splits into two lighter nuclei

C. Two light nuclei combine to form a heavier nucleus

Answer 63

C. Two light nuclei combine to form a heavier nucleus

Question 64

What is the role of the shielding around a nuclear reactor?

What material is typically used?

Answer 64

To absorb the ionising radiation released during fission. This is typically think layers of concrete.

Lead works well but is expensive!

Question 65

An object has been contaminated if….

A. it has been exposed to a radioactive source

B. unwanted radioactive atoms have got on to it or into it

C. it has become radioactive

Answer 65

B. unwanted radioactive atoms have got on to it or into it

Question 66

An object has been irradiated if….

A. it has been exposed to a radioactive source

B. unwanted radioactive atoms have got on to it or into it

C. it has become radioactive

Answer 66

A…it has been exposed to a radiaoctive source

Question 67

What are the fission products of an uranium-235 nucleus?

Answer 67

Two radioactive daugther nuclei and a small number of neutrons

Question 68

Nuclear fusion does not happen at low temperatures and pressures, due to electrostatic repulsion of…

A. electrons

B. protons

C. neutrons

Answer 68

B. protons

Question 69

What happens to the mass number and proton number after a nucleus undergoes neutron emission?

(Hint: the nucleus loses a neutron!)

Answer 69

Question 70

Medical tracers come from irradiating Mo-98 with neutrons. This is called neutron radiation or neutron capture.

Decribe what forms when Mo-98 is irradiated with neutrons.

Answer 70

Mo-98 forms Mo-99 since it gains a neutron!

Mo-99 is radioactive and decays to form Tc-99 which is used as a medical tracer

Question 71

Medical tracers are radioactive sources with are injected into, swallowed by or inhaled by a patient.

As the source moves around the body, the radiographer uses a detector and computer to monitor its progress on a display.

What sort of emitter should these radioactive tracer be?

Answer 71

gamma is best but beta works in some cases.

gamma is least ionising and most penetrating and can be detected outside the body.

alpha is a huge NO NO as it is least penetrating and will be completely absorbed by the body and cause huge damage to organs.

Question 72

Medical tracers are radioactive sources with are injected into, swallowed by or inhaled by a patient.

As the source moves around the body, the radiographer uses a detector and computer to monitor its progress on a display.

What are radioactive tracers mainly used for?

Answer 72

To check whether the organs in the body are working as they should.