Topic 6 ☢️☄️

Question 1

What is the overall charge of an atom?

Answer 1

Neutral

Question 2

What is the overall charge of a nucleus of an atom?

Answer 2

Positive

Question 3

What is the relative mass of a proton?

Answer 3

1

Question 4

What is the relative charge of a proton?

Answer 4

+1

Question 5

What is the relative mass of a neutron?

Answer 5

1

Question 6

What is the relative charge of a neutron?

Answer 6

0

Question 7

What is the relative mass of an electron?

Answer 7

0.0005 or 1/1850

Question 8

What is the relative charge of an electron?

Answer 8

-1

Question 9

What is an isotope?

Answer 9

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

Question 10

What can alpha radiation be used for?

Answer 10

CT scans and Radiotherapy

Question 11

What are alpha particles made of?

Answer 11

2 neutrons and 2 protons (same as a helium nucleus)

Question 12

What are alpha particles used for?

Answer 12

Smoke alarms

Question 13

How does a smoke alarm work regarding alpha particles?

Answer 13

• Radioactive substance emits alpha radiation
• Alpha particles ionise the air in the detector and cause a current to flow between
• Smoke interferes with radiation so the air is no longer ionised and no current can flow
• Thus reduction in current flow triggers the alarm

Question 14

Are Beta particles ionising?

Answer 14

Highly ionising

Question 15

When are Beta particles emitted?

Answer 15

Emitted when a neutron turns into a proton in the nucleus.

Question 16

What can Beta particles be used for?

Answer 16

Thickness detectors

Question 17

How do thickness detectors work? And what type of radiation is involved?

Answer 17

• Beta particles passed through paper.
• Machine stopped if paper is too thick.

Question 18

What is nuclear fission?

Answer 18

Splitting of a large and unstable nuclei.

Question 19

How many and what particles are released during nuclear fission?

Answer 19

Two or three neutrons

Question 20

Unstable nuclei must absorb what?

Answer 20

A slow-moving neutron

Question 21

Where are uncontrolled chain reactions used?

Answer 21

Nuclear weapons

Question 22

What does nuclear fission produce?

Answer 22

Two smaller nuclei and releases energy.

Question 23

What is nuclear fusion?

Answer 23

Joining of two light nuclei into a larger nucleus.

Question 24

What atmosphere does nuclear fusion require?

Answer 24

Very high temperatures and pressures

Question 25

In B- (Beta minus) decay what is released?

Answer 25

Neutron turns into a proton and an electron is released.

Question 26

In B- (Beta minus) decay what changes in the decay equation? Hint: atomic mass/number.

Answer 26

Atomic (Proton) number increases
Mass number stays constant

Question 27

What happens and is released in B+ (positron) decay?

Answer 27

Proton turns into a neutron and releases a positron.

Question 28

I’m B+ (positron) decay what changes in the decay equation? Hint: atomic mass/number

Answer 28

Atomic (proton) number decreases
Mass sumner stays constant

Question 29

What is count rate measured with in nuclear decay?

Answer 29

A Geiger-Muller tube/meter

Question 30

What is nuclear decay measured in?

Answer 30

Becquerels (Bq)

Question 31

Nuclear decay is RANDOM. What does this mean?

Answer 31

Which nuclei and when it will decay is unpredictable.

Question 32

Give an approximation for the radius of an atom?

Answer 32

1x10 to the -10 metres

Question 33

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

Answer 33

1 / 10,000

Question 34

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

Answer 34

1. Absorbing electromagnetic radiation
2. Emitting electromagnetic radiation

Question 35

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

Answer 35

• Electrons move to higher energy levels
• They move away from the nucleus

Question 36

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

Answer 36

• Electrons move to a lower energy level
• They move towards the nucleus

Question 37

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

Answer 37

Atomic number

Question 38

What is an atom’s mass number?

Answer 38

The total number of protons and neutrons in the atom.

Question 39

How do atoms turn into positive ions?

Answer 39

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

Question 40

State the four types of nuclear radiation.

Answer 40

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

Question 41

What is meant by background radiation?

Answer 41

• Radiation that is always present
• It is in very small amounts and so is not harmful

Question 42

Give 4 sources of background radiation.

Answer 42

1. Rocks
2. Cosmic rays from space
3. Nuclear weapon testing
4. Nuclear accidents

Question 43

What is the range of an alpha particle through air?

Answer 43

A few centimetres (2-10cm)

Question 44

What will block beta radiation?

Answer 44

A thin sheet of aluminium

Question 45

What will block gamma radiation?

Answer 45

Several centimetres of lead
A few metres of concrete

Question 46

Which type of radiation is most ionising?

Answer 46

Alpha radiation

Question 47

Which type of radiation is least ionising?

Answer 47

Gamma radiation

Question 48

How does gamma émission affect mass/charge of an atom?

Answer 48

Both mass and charge remain unchanged

Question 49

Describe the plum-pudding model of the atom.

Answer 49

A sphere of positive charge, with the negatively charged electrons distributed evenly through it.

Question 50

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

Answer 50

The atom was believed to be indivisible

Question 51

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

Answer 51

The Bohr model.

Question 52

Describe Rutherford’s experiment?

Answer 52

• Alpha particles (charge +2) were fired at a think sheet of gold foil
• Most particles went straight through
• Some particles were deflected by small angles (<90°)
• Some particles were deflected by large angles (>90°)

Question 53

What are the conclusions of Rutherford’s experiment?

Answer 53

• Most of the atom is empty space
  -The nucleus has a positive charge
• Most of the mass is concentrated in the nucleus

Question 54

What is the process called when a neutron changes into a proton and an electron?

Answer 54

Beta minus decay

Question 55

When alpha decay occurs, what happens to the atomic number and the mass number of the atom?

Answer 55

• Atomic number decreases by 2
• Mass number decreases by 4
• A new element is made since the atomic number has changed

Question 56

What effect does beta minus decay have on the mass number an atomic number of an atom?

Answer 56

• The mass number stays the same as the total number of neutrons and protons hasn’t changed
• The atomic number increases since there is one more proton

Question 57

Define the half-life of a radioactive isotope.

Answer 57

• 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 58

Give example uses of radioactivity.

Answer 58

• Household fire alarms
• Irradiating food
• Sterilisation of equipment
• Tracing and gauging thicknesses of materials
• Diagnosis and treatment of cancer

Question 59

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

Answer 59

1. Examining of internal organs
2. Radiotherapy in the treatment of cancer

Question 60

Why is ionising radiation dangerous?

Answer 60

• It can damage tissue and kill cells
• It can cause cell mutations

Question 61

What is a consequence of cell mutation?

Answer 61

Cancer

Question 62

What precautions should people take when using ionising radiation?

Answer 62

• Avoid handling the source directly (use tongs)
• Wear radiation protective clothing
• Keep the radiation in lead containers to reduce the amount of radiation that can escape
• Keep exposure time to a minimum

Question 63

Does a long half live or a short half life make a source more dangerous?

Answer 63

If it has a long half life then it would remain highly radioactive for longer therefore making it more dangerous.

Question 64

What is irradiation?

Answer 64

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

Question 65

Advantages of nuclear power for generating electricity.

Answer 65

• Do not produce carbon dioxide
• Readily available
• Less nuclear fuel to produce same amount of energy as burning fossil fuels
• Does not contribute to global warming

Question 66

Disadvantages of nuclear power.

Answer 66

• Unpopular - public perceive it as dangerous
• Security risks - useful to terrorists
• Expensive to commission and decommission
• Radioactive waste is difficult to dispose of
• Risk of nuclear accidents

Question 67

What usually needs to have to induce fission?

Answer 67

• The unstable nuclei must absorb a neutron
• Spontaneous fission is rare

Question 68

Name a common fissile nuclei.

Answer 68

Uranium - 235

Question 69

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

Answer 69

1. Fuel rods
2. Control rods
3. Moderator

Question 70

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

Answer 70

• Control roads are positioned in between the fuel roads
• The rate of fission is controlled by moving these roads up and down
• The lower the rods are inserted, the slower the rate of fission

Question 71

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

Answer 71

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

Question 72

How is electricity produced in a nuclear power station?

Answer 72

• The reactions release thermal energy
• The thermal energy is used to boil water and then produce steam
• This steam is then used to turn a turbine which starts the generator

Question 73

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

Answer 73

Deuterium and Tritium

Question 74

Which releases more energy, nuclear fission or nuclear fusion?

Answer 74

Nuclear fusion.

Question 75

Explain the difficulties of generating energy through nuclear fusion.

Answer 75

Fusion requires very high temperatures which in itself,requires large quantities of energy. Currently, the production of fusion results in a net loss of energy.

Question 76

Give an example of where fusion occurs?

Answer 76

In the sun - stars use fusion as their energy source