Monday, March 31, 2014

5. The Uses of Radioactive Isotopes emitting alpha, beta or gamma ... How do we use radioisotopes for? How can we use alpha particle radiation, beta particle radiation and gamma ... www.docbrown.info/../3_54radio05.htm

Search Site Custom Search Doc Brown's Chemistry KS4 science GCSE/IGCSE/AS Physics Revision Notes 5.The Uses of Radioactive Isotopes emitting alpha, beta or gamma radiation How do we use radioisotopes for? How can we use alpha particle radiation, beta particle radiation and gamma radiation? How do we relate the use of ionising radiation with its physical properties e.g. it penetration into material or the half-life of the radioactive source. Radioactivity & nuclear physics Index 1a. The Structure of Atoms - 3 fundamental particles* 1b. What it is an atom like?* 2a. What is Radioactivity? Why does it happen?* 2b. How did they find out there were three types of atomic-ionising radiation?* 3a. Detection of Radioactivity and its measurement, units* 3b. Ionising Radiation sources* 4a. The properties of the three types of radioactive emission and symbols* 4b The dangers of radioactive emissions - beware of ionising radiation from radio-isotopes!* 5. The uses of radioactive Isotopes emitting alpha, beta or gamma radiation* 6a. The half-life of a radioisotope - how long does material remain radioactive? implications!* 6b. Uses of decay data and half-life values* 7a. What actually happens to the nucleus in alpha and beta radioactive decay? nuclear equations! * 7b. The production of Radioisotopes - artificial sources* 8. Nuclear fusion reactions and the formation of 'heavy elements'* 9. Nuclear Fission Reactions, nuclear power energy resource 5.TheUsesof Radioactive Isotopes emitting alpha, beta or gamma radiation The uses of radioactive isotopes depends on their penetrating power and the value of their half-life ( see later). 5aUses of alpha particle sources *.Because alpha particles areeasily stopped, an alpha source is used in some smoke detectors. A sealed alpha source of Americium-241 (half-life 458 years, producing constant signal) sends a stream of alpha particles to a sensor across an air gap. Any smoke present will block the alpha particles and change the sensor signal, this change in signal triggers the alarm. Beta and gamma radiation would be of no use because the smoke particles would not stop them, no change in signal, no alarm triggered! *.Alpha sources are too readily absorbed to show up with a Geiger counter or other detectorand so are not suitable for 'tracer' applications. *.However, an alpha particle emitting isotope of radium (radium-233, half-life 11.4 days) can be directly injected in tiny quantities into tumourous tissue to directly irradiate and kill cancer cells, an excellent medical use of an alpha emitter. Since they are not very penetrating, there is less chance of damaging healthy cells. *.This is an example ofinternal radionuclide therapy. *. more on the properties of alpha particlesand nuclear equations for alpha decay 5bUses of beta radiation sources *.Most Beta particles are stopped by a few mm or cm of solid materials. The thicker the layer the more beta radiation is absorbed. A beta source is placed on one side of a sheet of material. A detector (e.g. a Geiger counter) is put on the other side and can monitor how much radiation gets through. The signal size depends on thickness of the sheet and it gets smaller as the sheet gets thicker. Therefore the signal can be used to monitor the sheet thickness. The half-life must be quite long so that change in the signal does not result from rapid decay. *.This idea is used to control production lines of paper, plastic or steel sheeting. Before the sheet material passes through 'flattening' rollers, it passes between a beta source and detector. The detector signal is checked against that for a preset thickness. If the signal is too big the sheet is too thin and the rollers are moved apart to thicken the sheet. If the signal is too small the sheet is too thick and the rollers are moved closer together. *. more on the properties of beta particlesand nuclear equations for beta decay 5cUses of gamma radiation sources *.Gamma radiation is highly penetratingand so gamma sources are used where the radiation must be detected after passing through an appreciable thickness of material. This is used in varioustracer situationsand usually the half-life should be relatively short to avoid any health hazards. *.A gamma emittingtracercan be added to theflow of waterin a pipe and the outside of the pipes monitored with a Geiger counter. Any leaks would be detected by an increase in radiation reading. The flow of water in underground streams can be followed in a similar way. *.Radiotherapy:It seems ironic that the very radiation which causes cancer, can also be used to treat it. A beam ofgamma radiation is directed onto the tumor siteto kill the cancer cells. Unfortunately the radiation passes through the 'good' tissue too and kills or damages 'good' cells. Modern techniques use multiple rotating gamma sources that arefocused on to the tumor. This means the surrounding 'good cells' are less frequently hit and minimises potential harmful side-effects on the rest of the body (e.g. sickness or other mutations). Radiotherapy also avoids the need for intrusive surgery which has its own risk factors. The gamma emitters used have relatively long half-lives to give the instrument a good working life. *.Gamma radiation can be used in a non-destructive way to test the structure of a material. *.In a sense it is an alternative to X-ray photography for more dense materialse.g. *.It is used test the structure and quality of pipe welds. *.A gamma source is placed inside the pipe and photographic paper wrapped around the weld. *.If there is any gap or flaw in the weld, more gamma radiation gets through and shows up as increased exposure on the 'gamma-ray picture'. *.Its better to find out the fault now, rather than later when it fractures, and has to be 'dug up' or retrieved from the bottom of the sea! *.Because gamma radiation is so deadly and penetrating it can be used tosterilise surgical equipment or packaged food: *.The radiation is deadly for bacteria even in the most microscopic pockets of apparently smooth and shiny stainless steel of surgical instruments. *.It is very convenient for 'convenience' food!. After cooking and sealing in a plastic packet, you don't need to reopen to complete the sterilization to give it a long shelf-life!Technetium-99is a gamma emitter (half-life 6 hours) and is used inmedicine as a tracer. *.In medical applications, in a suitable chemical form, the radioisotope is injected into the body and its 'movement' can be followed. *.Time is allowed for the radioactive tracer to spread and its progress tracked with a detector outside the body. *.The patient can be placed next to a 'detection screen' that shows where the radioactive tracer is. *.The effective function of organs like the liver and digestion system can be checked. *.Similarly, a patient can breathe in air with a gaseous gamma emitter in it, and the effectiveness and structure of the lungs can be checked. *.The half-life must be relatively short so it does not linger in the body increasing the harmful effects of cell damage. *.Technetium atoms can be incorporated into many organic chemicals calledradiopharmaceuticalswhich can be used to monitor biochemical aspects of the bodies chemistry e.g. the functioning and performance of a particular organ. *.Iodine-131, another gamma emitter (half-life = 8 days), can be used to check on the functioning of a thyroid gland. The body needs iodine to make the hormone thyroxine and so the take up of iodine can be monitored by measuring the gamma radiation from the thyroid gland. Gamma radiation, being the most penetrating, it passes out through the body and so readily be detected outside the body by some suitable detector e.g. with a special camera or fluorescent screen. *.Thehalf-life should be long enough to allow good detectionBUTNOT too long to be dangerousto the body over a period of time! *.One method of treating thyroid cancer is to inject Iodine-13 into the body in a soluble salt form e.g. potassium iodide, so that it deliberately concentrates in the thyroid gland and the gamma radiation kills the thyroid cancer cells. *.This is another example of 'medical physics' and important diagnostic technique in clinical medicine. *.Beta sources can be used, though not as penetrating as gamma and have an increased risk of cell damage.. *.Alpha sources are too readily absorbedto show up with a Geiger counter or other detector and so are not suitable for these 'tracer' applications. *.However, an alpha particle emitting isotope of radium can be directly injected in tiny quantities into tumourous tissue to directly irradiate and kill cancer cells (see uses of alpha radiation). *. more on the properties of gamma radiationand nuclear origin of gamma radiation RADIOACTIVITY multiple choice QUIZZES and WORKSHEETS Easier-Foundation Radioactivity Quiz or Harder-Higher Radioactivity Quiz five word-fills on radioactivity* Q2* Q3* Q4* Q5and ANSWERS! crossword puzzle on radioactivityand ANSWERS! Revision KS4 Science GCSE/IGCSE/O level Chemistry Information Study Notes for revising for AQA GCSE Science, Edexcel 360Science/IGCSE Chemistry & OCR 21stC Science, OCR Gateway Science WJEC gcse science chemistry CCEA/CEA gcse science chemistry O Level Chemistry (revise courses equal to US grade 8, grade 9 grade 10) A level Revision notes for GCE Advanced Subsidiary Level AS Advanced Level A2 IB Revise AQA GCE Chemistry OCR GCE Chemistry Edexcel GCE Chemistry Salters Chemistry CIE Chemistry, WJEC GCE AS A2 Chemistry, CCEA/CEA GCE AS A2 Chemistry revising courses for pre-university students (equal to US grade 11 and grade 12 and AP Honours/honors level courses) ALL Websit e conten t c opyrig ht © Dr Phil Brown 2000- 2014 All rights reserv ed on revisio n notes, images , puzzle s, quizze s, works heets, x-wor ds etc. * Copyin g of websit e materi al is not permit ted* chemhelp@tiscali.co.uk Alphabetical Index for Science Pages Content A B C D E F G H I J K L M N O P Q R S T U V W X Y Z SEARCH SITE SITE HELP SEARCH - ENTER SPECIFIC WORDS/FORMULA etc.

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