Vertaling en analyse van woorden door kunstmatige intelligentie ChatGPT
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nuclear radiations - vertaling naar arabisch
![[[Alpha particle]]s may be completely stopped by a sheet of paper, [[beta particle]]s by aluminium shielding. [[Gamma ray]]s can only be reduced by much more substantial mass, such as a very thick layer of [[lead]].](https://commons.wikimedia.org/wiki/Special:FilePath/Alfa beta gamma radiation.svg?width=200 "[[Alpha particle]]s may be completely stopped by a sheet of paper, [[beta particle]]s by aluminium shielding. [[Gamma ray]]s can only be reduced by much more substantial mass, such as a very thick layer of [[lead]].")
![Taking an X-ray image with early [[Crookes tube]] apparatus in 1896. The Crookes tube is visible in the centre. The standing man is viewing his hand with a [[fluoroscope]] screen; this was a common way of setting up the tube. No precautions against radiation exposure are being taken; its hazards were not known at the time.](https://commons.wikimedia.org/wiki/Special:FilePath/Crookes tube xray experiment.jpg?width=200 "Taking an X-ray image with early [[Crookes tube]] apparatus in 1896. The Crookes tube is visible in the centre. The standing man is viewing his hand with a [[fluoroscope]] screen; this was a common way of setting up the tube. No precautions against radiation exposure are being taken; its hazards were not known at the time.")
![Gamma-ray energy spectrum]] of uranium ore (inset). Gamma-rays are emitted by decaying [[nuclide]]s, and the gamma-ray energy can be used to characterize the decay (which nuclide is decaying to which). Here, using the gamma-ray spectrum, several nuclides that are typical of the decay chain of <sup>238</sup>U have been identified: <sup>226</sup>Ra, <sup>214</sup>Pb, <sup>214</sup>Bi.](https://commons.wikimedia.org/wiki/Special:FilePath/Gammaspektrum Uranerz.jpg?width=200 "Gamma-ray energy spectrum]] of uranium ore (inset). Gamma-rays are emitted by decaying [[nuclide]]s, and the gamma-ray energy can be used to characterize the decay (which nuclide is decaying to which). Here, using the gamma-ray spectrum, several nuclides that are typical of the decay chain of <sup>238</sup>U have been identified: <sup>226</sup>Ra, <sup>214</sup>Pb, <sup>214</sup>Bi.")
![half-lives]] have elapsed.](https://commons.wikimedia.org/wiki/Special:FilePath/Halflife-sim.gif?width=200 "half-lives]] have elapsed.")
![n<sup>0</sup>]] emissions, EC denotes [[electron capture]]).](https://commons.wikimedia.org/wiki/Special:FilePath/Radioactive decay modes.svg?width=200 "n<sup>0</sup>]] emissions, EC denotes [[electron capture]]).")
![2007 ISO radioactivity [[hazard symbol]] intended for IAEA Category 1, 2 and 3 sources defined as dangerous sources capable of death or serious injury[http://www.iaea.org/newscenter/news/2007/radiationsymbol.html IAEA news release Feb 2007]](https://commons.wikimedia.org/wiki/Special:FilePath/Logo iso radiation.svg?width=200 "2007 ISO radioactivity [[hazard symbol]] intended for IAEA Category 1, 2 and 3 sources defined as dangerous sources capable of death or serious injury[http://www.iaea.org/newscenter/news/2007/radiationsymbol.html IAEA news release Feb 2007]")
![Anti-nuclear weapons]] protest march in Oxford, 1980](https://commons.wikimedia.org/wiki/Special:FilePath/Anti-nuclear weapons protest, UK 1980.JPG?width=200 "Anti-nuclear weapons]] protest march in Oxford, 1980")
![commercial launch]] of the Russian [[Strategic Rocket Forces]] R-36 [[ICBM]]; also known by the NATO reporting name: [[SS-18 Satan]]. Upon its first fielding in the late 1960s, the SS-18 remains the single highest [[throw weight]] missile delivery system ever built.](https://commons.wikimedia.org/wiki/Special:FilePath/Dnepr rocket lift-off 1.jpg?width=200 "commercial launch]] of the Russian [[Strategic Rocket Forces]] R-36 [[ICBM]]; also known by the NATO reporting name: [[SS-18 Satan]]. Upon its first fielding in the late 1960s, the SS-18 remains the single highest [[throw weight]] missile delivery system ever built.")
![[[Edward Teller]], often referred to as the "father of the hydrogen bomb"](https://commons.wikimedia.org/wiki/Special:FilePath/Edward Teller (1958)-LLNL.jpg?width=200 "[[Edward Teller]], often referred to as the \"father of the hydrogen bomb\"")
![Demonstration against nuclear testing in [[Lyon]], France, in the 1980s.](https://commons.wikimedia.org/wiki/Special:FilePath/Essais nucleaires manif.jpg?width=200 "Demonstration against nuclear testing in [[Lyon]], France, in the 1980s.")
![Nagasaki]], Japan. They were large and could only be delivered by [[heavy bomber]] aircraft](https://commons.wikimedia.org/wiki/Special:FilePath/Fat man.jpg?width=200 "Nagasaki]], Japan. They were large and could only be delivered by [[heavy bomber]] aircraft")
![fission]] weapon designs](https://commons.wikimedia.org/wiki/Special:FilePath/Fission bomb assembly methods.svg?width=200 "fission]] weapon designs")
![The [[International Atomic Energy Agency]] was created in 1957 to encourage peaceful development of nuclear technology while providing international safeguards against nuclear proliferation.](https://commons.wikimedia.org/wiki/Special:FilePath/Flag of IAEA.svg?width=200 "The [[International Atomic Energy Agency]] was created in 1957 to encourage peaceful development of nuclear technology while providing international safeguards against nuclear proliferation.")
![[[Robert Oppenheimer]], principal leader of the [[Manhattan Project]], often referred to as the "father of the atomic bomb".](https://commons.wikimedia.org/wiki/Special:FilePath/JROppenheimer-LosAlamos.jpg?width=200 "[[Robert Oppenheimer]], principal leader of the [[Manhattan Project]], often referred to as the \"father of the atomic bomb\".")
![Protest in Bonn against the [[nuclear arms race]] between the U.S./NATO and the Warsaw Pact, 1981](https://commons.wikimedia.org/wiki/Special:FilePath/Massale vredesdemonstratie in Bonn tegen de modernisering van kernwapens in West, Bestanddeelnr 253-8611.jpg?width=200 "Protest in Bonn against the [[nuclear arms race]] between the U.S./NATO and the Warsaw Pact, 1981")
![This view of downtown [[Las Vegas]] shows a [[mushroom cloud]] in the background. Scenes such as this were typical during the 1950s. From 1951 to 1962 the government conducted 100 atmospheric tests at the nearby [[Nevada Test Site]].](https://commons.wikimedia.org/wiki/Special:FilePath/NNSA-NSO-787.jpg?width=200 "This view of downtown [[Las Vegas]] shows a [[mushroom cloud]] in the background. Scenes such as this were typical during the 1950s. From 1951 to 1962 the government conducted 100 atmospheric tests at the nearby [[Nevada Test Site]].")
![Over 2,000 nuclear tests have been conducted in over a dozen different sites around the world. Red Russia/Soviet Union, blue France, light blue United States, violet Britain, yellow China, orange India, brown Pakistan, green North Korea and light green (territories exposed to nuclear bombs). The Black dot indicates the location of the [[Vela incident]].](https://commons.wikimedia.org/wiki/Special:FilePath/Rael Nuclear use locations world map.png?width=200 "Over 2,000 nuclear tests have been conducted in over a dozen different sites around the world. Red Russia/Soviet Union, blue France, light blue United States, violet Britain, yellow China, orange India, brown Pakistan, green North Korea and light green (territories exposed to nuclear bombs). The Black dot indicates the location of the [[Vela incident]].")
![Ukrainian]] workers use equipment provided by the U.S. [[Defense Threat Reduction Agency]] to dismantle a Soviet-era missile silo. After the end of the Cold War, Ukraine and the other non-Russian, post-Soviet republics relinquished Soviet nuclear stockpiles to Russia.](https://commons.wikimedia.org/wiki/Special:FilePath/SS-24 silo destruction.jpg?width=200 "Ukrainian]] workers use equipment provided by the U.S. [[Defense Threat Reduction Agency]] to dismantle a Soviet-era missile silo. After the end of the Cold War, Ukraine and the other non-Russian, post-Soviet republics relinquished Soviet nuclear stockpiles to Russia.")
![A photograph of [[Sumiteru Taniguchi]]'s back injuries taken in January 1946 by a U.S. Marine photographer](https://commons.wikimedia.org/wiki/Special:FilePath/Sumiteru Taniguchi back.jpg?width=200 "A photograph of [[Sumiteru Taniguchi]]'s back injuries taken in January 1946 by a U.S. Marine photographer")
![The basics of the [[Teller–Ulam design]] for a hydrogen bomb: a fission bomb uses radiation to compress and heat a separate section of fusion fuel.](https://commons.wikimedia.org/wiki/Special:FilePath/Teller-Ulam device 3D.svg?width=200 "The basics of the [[Teller–Ulam design]] for a hydrogen bomb: a fission bomb uses radiation to compress and heat a separate section of fusion fuel.")
![terminal]], or re-entry phase, of the [[multiple independently targetable reentry vehicle]]s](https://commons.wikimedia.org/wiki/Special:FilePath/Trident C-4 montage.jpg?width=200 "terminal]], or re-entry phase, of the [[multiple independently targetable reentry vehicle]]s")
![The [[USSR]] and United States nuclear weapon stockpiles throughout the [[Cold War]] until 2015, with a precipitous drop in total numbers following the end of the Cold War in 1991.](https://commons.wikimedia.org/wiki/Special:FilePath/US and USSR nuclear stockpiles.svg?width=200 "The [[USSR]] and United States nuclear weapon stockpiles throughout the [[Cold War]] until 2015, with a precipitous drop in total numbers following the end of the Cold War in 1991.")
![heavier lift]] Russian [[SS-18 Satan]], could contain up to ten nuclear warheads (shown in red), each of which could be aimed at a different target. A factor in the development of [[MIRV]]s was to make complete [[missile defense]] difficult for an enemy country.](https://commons.wikimedia.org/wiki/Special:FilePath/W87 MX Missile schematic.jpg?width=200 "heavier lift]] Russian [[SS-18 Satan]], could contain up to ten nuclear warheads (shown in red), each of which could be aimed at a different target. A factor in the development of [[MIRV]]s was to make complete [[missile defense]] difficult for an enemy country.")
Definitie
Wikipedia
The Ionising Radiations Regulations (IRR) are statutory instruments which form the main legal requirements for the use and control of ionising radiation in the United Kingdom. There have been several versions of the regulations, the current legislation was introduced in 2017 (IRR17), repealing the 1999 regulations and implementing the 2013/59/Euratom European Union directive.
The main aim of the regulations as defined by the 1999 official code of practice was to "establish a framework for ensuring that exposure to ionising radiation arising from work activities, whether man made or natural radiation and from external radiation or internal radiation, is kept as low as reasonably practicable (ALARP) and does not exceed dose limits specified for individuals".
