P2 6 Nuclear Radiation

Question 0

What are the three main types of radioactive substances?

Answer 0

Alpha, beta and gamma radiation.

Question 1

What is a radioactive substance?

Answer 1

A radioactive substance contains unstable nuclei that become stable by emitting radiation.

Question 2

When does radioactive decay happen?

Answer 2

Radioactive decay is a random event, we cannot predict when it will happen.

Question 3

Where is background radiation from?

Answer 3

Background radiation is from radioactive substances in the environment or from space or from devices such as x-ray machines.

Question 4

What did Rutherford’s experiment show?

Answer 4

Most alpha particles passed straight through the metal foil.
The no. of alpha particles deflected per minute decreased as the angle of deflection increased.
About 1 in 10000 alpha particles were deflected by more than 90 degrees.

Question 5

What was the previous model called?

Answer 5

Plum pudding model

Question 6

What is an isotope?

Answer 6

Isotopes of an element are atoms with the same number of protons but different numbers of neutrons.

Question 7

What is released in alpha decay?

Answer 7

In alpha emission, the atomic number goes down by 2 and the mass number goes down by 4.

Eg: 228 Th —> 224 Ra + 4 a
90 88 2

Question 8

What is released in beta decay?

Answer 8

A beta particle is an electron. The relative mass of a beta particle is effectively zero and the relative charge is -1 . The atomic number increases by 1.

Eg: 40 K —> 40 Ca + 0 beta
19 20 -1

Question 9

What is released in gamma decay?

Answer 9

Gamma is uncharged and has no mass. So it does not change the number of protons or the number of neutrons in a nucleus.

Question 10

Give characteristics of alpha radiation

Answer 10

Alpha radiation is stopped by paper and it has a range of a few centimetres in air. It consists of particles, each composed of two protons and two neutrons.

Question 11

Give characteristics of beta radiation

Answer 11

Beta radiation is stopped by thin metal usually aluminium, it has a a range of about a metre in air and it consists of fast moving electrons emitted from the nucleus.

Question 12

Give characteristics of gamma radiation

Answer 12

Gamma radiation is stopped by thick lead and it has an unlimited range in air. It consists of electromagnetic radiation.

Question 13

Deflection by a magnetic field

Answer 13

Beta radiation is deflected in the opposite direction to alpha radiation. Beta radiation is deflected more than alpha radiation as the mass of an alpha particle is 8000 x greater than the mass of a beta
particle. Alpha radiation is deflected less. Gamma is undeflected by the magnetic field as it is uncharged.

Question 14

Deflection by an electric field

Answer 14

Alpha particles are attracted towards the negative plate because they are positively charged. The beta particles are attracted towards the positive plate as they are negatively charged. The same theory about the mass and the amount of deflection occurs here.

Question 15

Radioactivity dangers

Answer 15

Radiation from a radioactive substance can knock electrons out of atoms. The atoms become charged as they lose electrons.This is called IONISATION. Alpha is the most ionising but least penetrative. Beta is in the middle and gamma is the least ionising and the most penetrative.

Question 16

What is half life?

Answer 16

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

Question 17

Examples of radioactivity

Answer 17

• Smoke alarms- alpha particles ionise the air in the gap conducting a current. In a fire, the smoke absorbs the ions created by the alpha particles so they don’t cross the gap. An alarm then sounds.
• Radioactive tracers
• Automatic thickness monitoring