Radioactivity Flashcards
What is Rutherford scattering?
Experiment involved firing alpha particles in a thin stream through a thin layer of gold foil.
The results showed that the majority of particles passed straight through the foil- most of the atom is empty space.
Some were deflected slightly- atom has small amount of positive charge
A very small amount where deflected more than 90 degrees- the positive part must be very dense
How was knowledge and understanding of the structure of the nucleus changed over time? (4 points)
1) Idea of atoms has been around sine the of the ancient Greeks
2) 1804, Dalton put froward a hypothesis that matter was made of tiny spheres ‘atoms’ that couldn’t be broken up. Each element made of different types of atom
3) J.J. Thompson discovered electrons could be removed from atoms. Made ‘plum-pudding model’. Atoms were spheres of positive charge with tiny negative electrons stuck in them
4) Rutherford’s experiment lead to proposal of nucleus
How can you identify an unknown source of radiation?
1) Using a Geiger-Müller counter, measure the background count when the source is not present
2) Place the source of radiation close to the tube and measure the count rate
3) Place a piece of paper between the source and tube and measure count rate again. If it drops significantly then the source is an alpha emitter
4) Repeat with a piece of aluminium foil. If count rate drops significantly
then source is a beta emitter
5) Repeat with a block of lead. If count rate drops significantly then source is a gamma emitter
Properties of alpha radiation
2 protons, 2 neutrons
Range in air of 2-10cm
Highly ionising
Absorbed by paper
Properties of beta radiation
Electron/positron
Range in air of around 1m
Weakly ionising
Absorbed by Aluminium foil (around 3mm)
Properties of gamma radiation
Electromagnetic radiation
Infinite range (follows inverse square law)
Very weakly ionising
Absorbed by several metres of concrete or several inches of lead
How can radiation be used to monitor the thickness of certain materials whilst they are being produced?
In the production of aluminium foil, a beta source is placed on one side of the material, while a detector is placed on the other. If the material is too thick, less beta radiation will pass through the foil, the reading on the detector decreases causing the rollers to move closer together. Vice versa if material is too thin. Same can be done with alpha radiation for paper and gamma radiation for steel sheets.
What are the relative hazards of the different types of radiation to humans?
Alpha radiation is highly ionising, so can be incredibly dangerous if inhaled or digested as it can ionise body tissues.
Beta particles are less ionising but can still cause damage to body tissue.
Prolonged exposure to gamma radiation can lead mutations and damage to cells
How can you investigate the inverse square law for gamma radiation?
Measure the count rate of a gamma source at different distances from the GM tube, making sure to adjust for the background radiation. Then you can plot a graph of corrected count against 1/x^2 , which will form a straight line verifying the law
How can radioactive sources be handled safely?
● Using long handled tongs to move the source.
● Storing the source in a lead-lined container when not in use.
● Keeping the source as far away as possible from yourself and others.
● Never pointing the source towards others.
Sources of background radiation
Radon gas
Artificial sources- eg. nuclear fallout
Cosmic rays
Rocks containing naturally occurring isotopes
Uses of gamma radiation in medicine
As a detector- a radioactive source with a short half life can be used to help diagnose patients
To sterilise medical equipment- gamma radiation will kill any bacteria present
In radiotherapy, gamma radiation can be used to kill cancerous cells
Describe the random nature of radioactive decay
A decay can happen at any time, it is chance. So you can’t predict when a decay will happen.
What is decay constant?
The probability of a nucleus decaying per unit time
How is radioactive decay used to date objects?
Nuclei with a long half-life such as carbon-14 can be used to date organic objects, such as those found in archaeological sites. This is done by measuring the current amount of carbon-14 and comparing it to the initial amount, the percentage of which is approximately equal in all living things
