6.10.5 Nuclear Fission

• There is a lot of energy stored within the nucleus of an atom
  • This energy can be released in a nuclear reaction such as fission or fusion

• Nuclear fission is defined as:

The splitting of a large, unstable nucleus into two smaller nuclei

• Isotopes of uranium and plutonium both undergo fission and are used as fuels in nuclear power stations
• During fission, when a neutron collides with an unstable nucleus, the nucleus splits into two smaller nuclei (called daughter nuclei) as well as two or three neutrons
  • Gamma rays are also emitted

Large nuclei can decay by fission to produce smaller nuclei and neutrons with a lot of kinetic energy

• The products of fission move away very quickly
  • Energy transferred is from nuclear potential energy to kinetic energy

Spontaneous Fission

• It is rare for nuclei to undergo fission without additional energy being put into the nucleus
• When nuclear fission occurs in this way it is called spontaneous fission

Induced Fission

• Usually, for fission to occur the unstable nucleus must first absorb a neutron
• Take, for example, uranium-235, which is commonly used as a fuel in nuclear reactors
• It has a very long half-life of 700 million years
• This means that it would have low activity and energy would be released very slowly
  • This is unsuitable for producing energy in a nuclear power station

• During induced fission, a neutron is absorbed by the uranium-235 nucleus to make uranium-236
• This is very unstable and splits by nuclear fission almost immediately

Chain Reactions

• Only one extra neutron is required to induce a Uranium-235 nucleus to split by fission
• During the fission, it produces two or three neutrons which move away at high speed
• Each of these new neutrons can start another fission reaction, which again creates further excess neutrons
• This process is called a chain reaction

The neutrons released by each fission reaction can go on to create further fissions, like a chain that is linked several times – from each chain comes two more

ANSWER:  D

Step 1: Identify the different mass and atomic numbers

• • Pu (Plutonium) has mass number 239 and atomic number 94
  • Pd (Palladium) has mass number 112 and atomic number 46
  • Cd (Cadmium) has mass number 124 and atomic number 48

Step 2: Calculate the mass and atomic number of the missing section

• • Mass number is equal to the difference between the mass numbers of the reactants and the products

239 – (112 + 124) = 3

• • Atomic number is equal to the difference between the atomic numbers of the reactants and the products

94 – (46 + 48) = 0

• • The answer is therefore not B or C

Step 3: Determine the correct notation

• • Neutrons have a mass number of 1
  • The answer is therefore not A
  • Therefore, this must be three neutrons, which corresponds to D