Difference between revisions of "Ionising Radiation"
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| − | | style="height:20px; width: | + | | style="height:20px; width:600px; text-align:left;" |When a [[Beta Particle|Beta minus particle]] interacts with an [[atom]] the [[Beta Particle|beta minus particle]] can pass on some of its [[Kinetic Energy Store|kinetic energy]] to an [[electron]] in the [[Outer Shell|outer shell]] causing the [[electron]] to escape '''ionising''' the [[atom]]. |
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| − | | style="height:20px; width: | + | | style="height:20px; width:600px; text-align:left;" |When a [[Gamma-ray|gamma-ray]] interacts with an [[atom]] the [[Gamma-ray|gammarray]] is [[Absorb (Physics)|absorbed]] by an [[electron]] in the [[Outer Shell|outer shell]] causing the [[electron]] to escape '''ionising''' the [[atom]]. |
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| − | : [[Neutron Radiation|Neutron radiation]] is referred to as indirectly [[Ionising Radiation|ionising]] because it does not affect the [[electron]]s [[Electron Orbital|orbiting]] an [[atom]] but it can be [[Absorb (Physics|absorbed]] by a [[Atomic Nucleus|nucleus]] making it [[Unstable Isotope|unstable]] and causing it to release a [[gamma-ray]]. | + | {| class="wikitable" |
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| + | |[[File:NeutronIonise.png|center|600px]] | ||
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| + | | style="height:20px; width:600px; text-align:left;" |[[Neutron Radiation|Neutron radiation]] is referred to as indirectly [[Ionising Radiation|ionising]] because it does not affect the [[electron]]s [[Electron Orbital|orbiting]] an [[atom]] but it can be [[Absorb (Physics|absorbed]] by a [[Atomic Nucleus|nucleus]] making it [[Unstable Isotope|unstable]] and causing it to release a [[gamma-ray]]. | ||
| + | |} | ||
===Ionising Radiation and Cancer=== | ===Ionising Radiation and Cancer=== | ||
: Exposure to '''ionising radiation''' is a [[Risk Factor|risk factor]] in [[cancer]] because '''ionising radiation''' can cause [[DNA]] [[molecule]]s to break. When the [[Cell (Biology)|cell]] tries to repair the [[DNA]] it can make mistakes called [[mutation]]s. If this [[mutation]] tells the [[Cell (Biology)|cell]] to replicate constantly then this becomes [[cancer]]. | : Exposure to '''ionising radiation''' is a [[Risk Factor|risk factor]] in [[cancer]] because '''ionising radiation''' can cause [[DNA]] [[molecule]]s to break. When the [[Cell (Biology)|cell]] tries to repair the [[DNA]] it can make mistakes called [[mutation]]s. If this [[mutation]] tells the [[Cell (Biology)|cell]] to replicate constantly then this becomes [[cancer]]. | ||
Revision as of 08:49, 8 March 2019
Contents
Key Stage 3
Meaning
The hazard symbol for ionising radiation.
Ionising Radiation is radiation which can cause atoms to lose electrons and become ions.
About Ionising Radiation
- Ionising radiation damages living organisms.
- Ionising radiation may kill cells by damaging the parts inside them, particularly the DNA.
- Ionising radiation can cause the appearance of burns to the skin. A high enough dose of Ionising Radiation can cause instant death.
Key Stage 4
Meaning
Ionising Radiation is radiation emitted from the nucleus of an atom which can cause other atoms to lose electrons and become ions.
About Ionising Radiation
- The units of exposure to ionising radiation are the Sievert which is 1 Joule of energy from ionising radiation being absorbed by 1 kilogram of flesh.
In Nuclear Physics there are three types of ionising radiation:
- Alpha Radiation - The emission of an alpha particle from the nucleus of an unstable isotope.
- Beta Radiation - The emission of a beta particle from the nucleus of an unstable isotope.
- Gamma Radiation - The emission of a gamma-ray from the nucleus of an unstable isotope.
- Neutron Radiation - The emission of a neutron from the nucleus of an unstable isotope.
Ionising Atoms
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| When an alpha particle interacts with an atom the alpha particle can remove one or two electrons to ionise the atom. |
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| When a Beta minus particle interacts with an atom the beta minus particle can pass on some of its kinetic energy to an electron in the outer shell causing the electron to escape ionising the atom. |
 |
| When a gamma-ray interacts with an atom the gammarray is absorbed by an electron in the outer shell causing the electron to escape ionising the atom. |
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| Neutron radiation is referred to as indirectly ionising because it does not affect the electrons orbiting an atom but it can be absorbed by a nucleus making it unstable and causing it to release a gamma-ray. |