Radiation, Atomic decay & structure(topic 6)

Question 1

What did Rutherford do?

Answer 1

Published results of his gold leaf experiment discovering a nucleus.

Question 2

What did J.J tompson do?

Answer 2

Created the plum pudding model and was the first scientist to prove atoms are made of electrons with cathode rays.

Question 3

What did Bohr do?

Answer 3

Proposed electrons were arranged in shells so they didn’t get attracted to the nucleus in the middle.

Question 4

What did James Chadwick do?

Answer 4

Explained gamma radiation by a neutral particle.

Question 5

What causes background radiation?

Answer 5

• Nuclear bombs
• nuclear powerstations
• sunlight-cosmic rays
• animals
• rocks

Question 6

What types of particles are given of through radiation?

Answer 6

• Alpha
• Beta-
• Beta+
• Gamma

Question 7

What materials stop Alpha particles?

Answer 7

Thin materials like paper and skin.

also a few centimetres of air would stop it.

Question 8

What materials stop gamma particles/rays

Answer 8

Lead

Question 9

What can stop beta particles?

Answer 9

A thin sheet of aluminium.

Question 10

What is an isotope?

Answer 10

An element with the same number of protons but a different number of neutrons.

Question 11

What is half life?

Answer 11

The time taken for the number of nuclei in the radioactive isotope in a sample to halve
or
the time taken for it radioactivity to half.

Question 12

What does the atomic number tell you?

Answer 12

The number of protons and in a neutral atom, the number of electrons.

Question 13

What does the mass number tell you?

Answer 13

The number of protons + neutrons.

Question 14

What are gamma rays used for?

Answer 14

• Killing bacteria by irritation,
• Diagnosing medical conditions by injecting a radioactive tracer that gets taken in by particular organs,
• external radiotherapy where beams of gamma rays(or x rays or protons) are directed at tumours. The surrounding tissues are protected by several low strength beams
• detecting leaks with tracers- absorbed into the earth around the leak and emits more radiation.A Geiger muller tube is used to detect the leak.

Question 15

What can Beta particles be used for?

Answer 15

• Measuring the thickness of things like paper. Beta particles are fired through lets say paper and if more particles are getting through then it is thinner, if less particles are getting through then it is too thin.
• Used in internal radiotherapy when a Beta emitter is placed near the tumour and as they are more susceptible to radiation than normal, the tumour cells get killed.

Question 16

How do smoke alarms work?

Answer 16

A source of alpha particles and an air gap is in the alarm. When the alpha particles are emitted, ionise with the air particles. These particles are attracted to oppositely charged plates creating an electric current. If smoke is there then the current will break setting of the alarm.

Question 17

What is nuclear fission?

Answer 17

A slow moving neutron collides with uranium 235 and forms two isotopes. As it is very unstable, when it absorbs a neutron, it split into two daughter nuclei, 2 or more neutrons, gamma radiation and a lot of energy

Question 18

What is nuclear fusion?

Answer 18

Two atomic nuclei join together to form a large nucleus and a lot of energy is released. However, you need a high temperature for this to happen as there is strong electrostatic repulsion and repel the atoms unless they have a lot of energy and are travelling very fast. This temperature only naturally occurs on a star/sun.

Question 19

What is activity?

Answer 19

amount of radiation per second measured by a Geiger counter

Question 20

What is alpha decay?

Answer 20

When a alpha particle is emitted due to an unstable nucleus (or more than 83 protons) causing the number of protons and the number of neutrons to go down by two. This means the mass number goes down by 4

Question 21

What is radioactive decay?

Answer 21

The nuclei of some isotopes are unstable. They can split up or ‘decay’ and release radiation. Such isotopes are called radioactive isotopes or radioisotopes. When a radioactive isotope decays, it forms a different atom with a different number of protons.

Question 22

What is beta(-) decay?

Answer 22

In Beta (β-) decay, a neutron changes into a proton plus an electron. The proton stays in the nucleus and the electron leaves the atom with high energy, and we call it a beta particle.

Question 23

What is beta(+) decay?

Answer 23

occurs when radioisotopes have too many neutrons, β+ decay occurs when they have too many protons. In this case, a proton is converted into a neutron and a positive beta particle of β+. This is called a positron and has the same mass as an electron but the opposite charge (positive).

Question 24

What is activity?

Answer 24

The amount of radiation present (measured by a Geiger counter)

Question 25

What is intensity?

Answer 25

The energy emitted per meter squared every second

Question 26

What are the dangers of gamma rays and x-rays?

Answer 26

They can cause mutations to the DNA in the cells of your body. This can kill the cells or cause cancer.

Question 27

What are the uses of Gamma rays?

Answer 27

• sterilise food and medical equipment
• in scanners to detect cancer
• to treat cancer

Question 28

What are the uses of x-rays?

Answer 28

• Medical uses, to scan your bones for damage

- in airport to see inside peoples luggage

Question 29

What are the dangers of Ultraviolet rays?

Answer 29

UV in sunlight can damage your skin causing sunburn or over time can cause skin cancer
-damage your eyes

Question 30

What are the uses of Ultraviolet rays?

Answer 30

• fluorescent lamps
• to detect forged bank notes with the watermarks which glow in UV light
• disinfect water

Question 31

What are the uses of infrared radiation?

Answer 31

• in cooking (grills and toasters)
• thermal imaging
• remote controls
• security systems

Question 32

What are the dangers of infrared radiation?

Answer 32

-too much can burn your skin

Question 33

What are the uses of microwaves?

Answer 33

• microwaves

- satellite transmissions

Question 34

What are the uses of radio waves?

Answer 34

• broadcasting TV and radio

- communication with ships, panes and satellites

Question 35

What is nuclear radiation?

Answer 35

when energy is emitted from the nuclei of unstable atoms.

Question 36

How do elections move between different energy levels?

Answer 36

Electrons can move between different energy levels in the atom if they absorb or emit electro magnetic radiation. When they absorb electromagnetic radiation they move up energy levels and when they emit electromagnetic radiation they move down energy levels.

Question 37

What is the process called by which large amounts of energy is released to heat water in power stations?

Answer 37

Nuclear fission

Question 38

What is a chain reaction?

Answer 38

In nuclear fission, when uranium 235 absorbs a neutron, it absorbs a neutron, it releases several more neutrons which then go and cause other uranium particles to decay, creating a chain reaction.

Question 39

What is a controlled chain reaction?

Answer 39

When a chain reaction controlled using a different material along side the uranium atoms so that only one of the released neutrons can cause fission, hence slowing doing the reaction as their are fewer neutrons to cause the nuclei to undergo fission

Question 40

Why can nuclear fusion not occur on earth easily?

Answer 40

Because the two nuclei need to be very close for fusion to occur and as they both have positive charges, they have very strong electrostatic repulsion meaning that extreme pressure and temperature is required to overcome this, usually only found in stars.

Question 41

Explain the difference between nuclear fission and fusion

Answer 41

In nuclear fusion hydrogen nuclei fuse to produce a bigger helium nuclei.
Whereas in nuclear fission, uranium 235 splits in d two daughter nuclei and 2+ neutrons.
Fusion requires very high temperatures and fast moving hydrogen nuclei whereas fission requires a slow moving neutron to be absorbed. Both release lots of energy

Question 42

How do neon signs work?

Answer 42

Gases on the inside absorbs energy (though electricity) causing the electrons to move up an energy level. They then need to move down to a more stable energy level by emitting light. They emit the colour which has the same amount of energy they absorbed in the first place.

Question 43

What is the equation to work out activity?

Answer 43

number of nuclei that decay / time in seconds

Question 44

How can ionising radiation be damaging?

Answer 44

Ionising radiation can break molecules into smaller fragments. These charged particles are called ions. Ions can then take part in other chemical reactions in the living cells. As a result, ionising radiation damages substances and materials, including those in the cells of living things. The ions themselves can take part in chemical reactions, spreading the damage. This may result in the living cells dying or becoming cancerous. Radiation can also affect DNA, causing mutations.

Question 45

How do nuclear power stations work?

Answer 45

Fuel rods heat a coolant when a neutron is fired into the uranium causing nuclear fission to release lots of energy and heat the coolant. This coolant then turns water to steam, turning a turbine etc.

Question 46

What happens to the mass and charge of the nucleus when alpha radiation occurs?

Answer 46

mass goes down by 4

The positive charge is reduced by 2

Question 47

What happens to the mass and charge of a nucleus during beta plus/minus decay?

Answer 47

Mass doesn’t change neutrons and protons have the same mass

The charge increases (beta minus) by 1 or decreases (beta plus) by 1