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Half-life for SQA National 5 Physics

Half-life

This page covers the following topics:

1. Fission
2. Chain reactions
3. Fusion

Fission is the process by which a large atomic nucleus is split up into smaller nuclei. A neutron hits a nucleus and is absorbed by it. This causes the nucleus to become unstable and thus it splits up into smaller nuclei, called the daughter nuclei, and more neutrons. The neutrons released carry most of the energy of the fission reaction as kinetic energy, and thus have to be slowed down before colliding with other nuclei. Fission has an advantage in generating energy over fossil fuels due to the fact that it requires less fissionable material to produce the same amount of energy.

Fission

Chain reactions are caused by fission. The additional neutrons produced in a fission reaction collide with other nuclei and cause further fission reactions, which are called chain reactions. Nuclear reactions thus must take place in nuclear reactors to control the speed and temperature of the reactions. The reactor is placed inside a concrete shield so as to protect from the hazardous radioactive nuclei released in the fission reactions. The nuclear fuel, which are the initial nuclei, are held in rods so that the neutrons released in the fission reactions will fly out and cause further ones in other rods. There are also control rods in reactors to control the speed of the chain reactions, which are raised and lowered into it to stop neutrons from travelling between rods. The rods are all in a graphite core, since graphite helps in slowing down the neutrons so that they are absorbed by a nearby fuel rod. The energy released by the fission reactions is used to heat up the coolant and is used to boil water, which in turn will be used to drive turbines and generate electricity.

Chain reactions

Nuclear fusion is the process by which small and light nuclei join together to form a bigger and heavier nucleus. Comparing the combined mass of the smaller nuclei to the mass of the resulting nucleus may show that the latter is smaller. This missing mass is converted into energy and is radiated away. Fusion reactions must be quick to occur, so that the repulsion between the two positively charged nuclei does not have time to act. Nuclear fusion must also occur in very high temperatures and pressures to overcome the repulsion between the nuclei.

Fusion

1

Define nuclear fusion.

Nuclear fusion is the process by which two small and light nuclei join together to form a bigger and heavier nucleus.

Define nuclear fusion.

2

How does absorbing a neutron cause a nucleus to split?

Absorbing a neutron makes the nucleus unstable, which causes it to split.

How does absorbing a neutron cause a nucleus to split?

3

Draw a diagram to represent nuclear fission.

image

Draw a diagram to represent nuclear fission.

4

What happens to the energy of a nuclear fission reaction?

The energy of the fission reaction is transferred to kinetic energy in the neutrons formed by the reaction.

What happens to the energy of a nuclear fission reaction?

5

What are the two types of rods in a nuclear reactor and what are their functions?

The two types of rods are the nuclear fuel rods and the control rods. The nuclear fuel, which are the initial nuclei, are held in rods so that the neutrons released in the fission reactions will fly out and cause further ones in other rods. There are also control rods in reactors to control the speed of the chain reactions, which are raised and lowered into it to stop neutrons from travelling between rods.

What are the two types of rods in a nuclear reactor and what are their functions?

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