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Radiation for Edexcel GCSE Physics

Radiation

This page covers the following topics:

1. Types of radiation
2. Experimental identification
3. Nuclear equations
4. Background radiation

There are three types of radiation: alpha, beta and gamma. An alpha particle is a helium nucleus and is made up of two protons, two neutrons and no electrons. A beta particle is an electron. Gamma radiation is a high energy electromagnetic wave with really short wavelength and high frequency. Gamma rays are released when an atom is in a high energy state after emitting an alpha or beta particle to return to a stable state.

Types of radiation

Ionising power is the ability of a particle to turn an uncharged atom into a charged one by removing or adding electrons. An alpha particle has the highest ionising power of the three types of radiation due to having the largest charge, however it has the smallest range in air of less than 5 cm and the lowest penetration power, which ranges only up to going through skin or paper. Gamma radiation has the largest penetrating power of the three, as it can penetrate through up to lead or concrete and the largest range in air, as it can travel through distances greater than 1 km. It however has a very low ionising power since it doesn't have a charge. Beta radiation has a greater penetrating power than alpha radiation but less than gamma radiation, as it can penetrate through up to 3 mm aluminium foil. It has a higher ionising power than gamma radiation, but lower than alpha radiation, since it has a greater charge than a gamma ray but a smaller one than an alpha particle. Its range is approximately a metre in air. Knowing this information allows us to check experimentally what type of radiation a radioactive sample is emitting.

Experimental identification

Nuclear equations describe what happens when a nucleus changes into another element by alpha or beta decay. In alpha decay, 2 protons and 2 neutrons are released from the nucleus to release an alpha particle, thus the atomic number decreases by 2 and the mass number decreases by 4. In beta decay, a neutron changes into a proton and releases an electron, thus the mass number stays the same and the atomic number increases by 1.

Nuclear equations

Background radiation is radiation that exists around us at all times. This can be from both naturally occuring or artificial sources. Some natural sources of background radiation are radon gas from radioactive emitting rocks and soil in the ground, cosmic rays that reach the Earth from space and living things, as plants absorb radioactive materials from the soil they grow in and pass them up through the food chain. Some artificial sources of background radiation are medical procedures and nuclear power and weapons. When conducting experiments involving radiation, the background radiation must first be calculated and deducted from all results so as not to interfere with them.

Background radiation

1

A potassium nucleus โดยฒโ‚โ‚‰K emits a beta particle. Write the nuclear equation for this beta decay.

โดยฒโ‚โ‚‰K โ†’ โดยฒโ‚‚โ‚€Ca + โฐโ‚‹โ‚ฮฒ

A potassium nucleus โดยฒโ‚โ‚‰K emits a beta particle. Write the nuclear equation for this beta decay.

2

Write the nuclear equation for a lithium nucleus โทโ‚ƒLi emitting an alpha particle.

โทโ‚ƒLi โ†’ ยณโ‚H + โดโ‚‚a

Write the nuclear equation for a lithium nucleus โทโ‚ƒLi emitting an alpha particle.

3

Fill in the gaps of the given nuclear equation.

ยฒยนโฐโ‚ˆโ‚„Po โ†’ โดโ‚He + แต‡โ‚‘Pb

a = 2, b = 206, e = 82.

Fill in the gaps of the given nuclear equation. 

ยฒยนโฐโ‚ˆโ‚„Po โ†’ โดโ‚He + แต‡โ‚‘Pb

4

What are the three types of radiation?

Radiation can be emitted as an alpha particle, a beta particle or a gamma particle.

What are the three types of radiation?

5

Explain what happens to a nucleus that undergoes alpha decay.

When a nucleus undergoes alpha decay, it loses two protons and two neutrons, which are emitted as an alpha particle. The mass number of the nucleus decreases by 4 and the atomic number decreases by 2.

Explain what happens to a nucleus that undergoes alpha decay.

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