518837
Description
Mind Map by sian.allison, updated more than 1 year ago
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Created by sian.allison
almost 12 years ago
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Radiation
- Uses of radiation
- Smoke Detectors
- Uses alpha radiation
- A weak source of alpha radiation is placed in the dectector close to two electrodes
- The source causes ionisation and a current flows between the electrodes
- The source causes ionisation and a current flows between the electrodes
- If there is a fire then smoke
will absorb the radiation so
the current stops and the
alarm sounds
- Uses alpha radiation
- Tracers in Medicine
- Always short half life beta
or gamma emitters
- Certain radioactive isotopes can be
injected into people (or they can swallow
them) and their progress around the body
can be followed using an external
detector. A computer converts the reading
to a display showing where the strongest
reading is coming from
- A well known example is the
use of iodine-131 which is
absorbed by the thyroid gland
just like normal iodine-127 but
it gives out radiation which
can be detected to indicate
whether the thyroid gland is
taking in iodine as it should
- All isotopes which are taken into the body
must be gamma or beta emitters (never
alphas) so that the radiation passes out of
the body and they should only last a few
hours so that the radioactivity inside the
patient disappears quickly i.e. they have a
short half life
- Always short half life beta
or gamma emitters
- Radiotherapy
- the treatment of cancer using gamma rays
- Since high doses of gamma
rays will kill all living cells
they can be used to treat
cancers
- The gamma rays have to be directed carefully
and at just the right dosage so as to kill the
cancer cells without damaging too many normal
cells
- However a fair bit of damage is
inevitably done to normal cells which
makes the patient feel very ill
- the treatment of cancer using gamma rays
- Sterilisation of food and surgical instruments
- Using gamma rays
- Food can be exposed to a high
dose of gamma rays which will
kill all microbes keeping the
food fresh for longer
- Medical instruments can be
sterilised in just the same way
rather than by boiling them
- The great advantage of irradiation over boiling is
that it doesnt involve high temperatures so things
like fresh apples or plastic instruments can be
totally sterilised without damaging them
- The food is not radioactive afterwards so its perfectly safe to eat
- The isotope used for this needs to be a
very strong emitter of gamma rays with a
reasonably long half life (several
months) so that it doesnt needs
replacing too oftem
- Using gamma rays
- Smoke Detectors
- Radioactivity Safety
- Radiation harms living cells
- Alpha, beta and gamma
radiation will cheerfully
enter living cells and
collide with molecules
- These collisions cause ionisation which damages or destroys the molecules
- These collisions cause ionisation which damages or destroys the molecules
- Lower doses tend to cause minor
damage without killing the cell this
can give rise to mutant cells which
divide uncontrollably. This is cancer
- Higher doses tend to kill cells
completely which causes
radiation sickness if a lot of
body cells completely which
causes radiation sickness if a
lot of body cells all get blatted
at once
- The extent of the harmful effects
depends on two things
- How much exposure you have to radiation
- The energy and penetration of the
radiation since some types are more
hazardous than others
- How much exposure you have to radiation
- The extent of the harmful effects
depends on two things
- Alpha, beta and gamma
radiation will cheerfully
enter living cells and
collide with molecules
- Outside the body beta and
gamma sources are the most
dangerous
- This is because beta and gamma
can get inside to the delicate
organs whereas alpha is much less
dangerous because it cant
penetrate the skin
- This is because beta and gamma
can get inside to the delicate
organs whereas alpha is much less
dangerous because it cant
penetrate the skin
- Inside the body an alpha
source is the most dangerous
- Inside the body alpha sources do all their damage
in a very localised area. Beta and gamma sources
on the other have are less dangerous inside the
body because they mostly pass straight out
without doing much damage
- Inside the body alpha sources do all their damage
in a very localised area. Beta and gamma sources
on the other have are less dangerous inside the
body because they mostly pass straight out
without doing much damage
- Safety Precautions
- When conducting experiments use radioactive
sources for as short a time as possible so your
exposure is kept to a minimum
- Never allow skin contact
with a source. Always
handle with tongs
- Hold the source at arms length to keep it as far
from the body as possible. This will decrease the
amount of radiation that hits you especially for
alpha particles as they dont travel far in air
- Keep the source pointing
away from the body and
avoid looking directly at it
- Lead absorbs all three types of radiation (though a
lot of it is needed to stop gamma radiation
completely) always store radioactive sources in a
lead box and put them away as soon as the
experiment is over. Medical professionals who
work with radiation every day wear lead aprons
and stand behind lead screens for extra protection
- When someone needs an X-ray
or radiotherapy only the are of the
body that needs to be treated is
exposed to radiation. The rest of
the body is protected with lead or
other radiation absorbing materials
- When conducting experiments use radioactive
sources for as short a time as possible so your
exposure is kept to a minimum
- Radiation harms living cells
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