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- ...nucleus]] of a [[chemical element]]. When free (not bound to a nucleus), a neutron can have important physical, chemical, and biological<ref name=WHOion>{{cit The mass ''m''<sub>n</sub> of a neutron<ref name=NIST1>9 KB (1,298 words) - 09:02, 4 May 2024
- A '''reactor moderator''' controls the flow of [[neutron]]s in a [[nuclear reactor]], often in the form of control rods which increa ...e inserted to their maximums. Solutions containing high concentrations of neutron absorbers can be used to flood a reactor and do an emergency shutdown. [[Be4 KB (575 words) - 09:51, 8 December 2022
- 284 bytes (41 words) - 11:29, 28 September 2008
- ...], which are bound together by the strong nuclear force, the neutrons in a neutron star are bound together by [[Gravitation|gravity]].415 bytes (69 words) - 15:39, 25 January 2023
- {{main|Neutron}} '''Neutron generators''' are the source of neutrons for various applications. The diff6 KB (938 words) - 21:00, 5 May 2010
- Devices or [[radioisotope]]s that provide a source of [[neutron]]s for applications119 bytes (16 words) - 20:11, 5 May 2010
- '''Neutron activation analysis (NAA)''' is an extremely sensitive technique of [[radio When samples are irradiated with [[neutron]]s, certain of their elements become radioactive, and emit [[gamma ray]]s o8 KB (1,189 words) - 06:39, 12 September 2013
- ...upernova, but not so much mass that it forms a [[black hole]] instead of a neutron star.192 bytes (33 words) - 15:40, 25 January 2023
- ...ermalizes) the speed, thereby reducing the [[kinetic energy]], of flying [[neutron]]s by collision of the neutrons with the small nuclei.251 bytes (35 words) - 10:42, 12 November 2012
- Auto-populated based on [[Special:WhatLinksHere/Neutron]]. Needs checking by a human.2 KB (245 words) - 17:08, 22 March 2024
- [[File:Shevchenko BN350.gif|thumb|The [[BN-350 reactor|BN-350]] fast-neutron reactor at [[Aktau]], Kazakhstan. It operated between 1973 and 1994.]] ...greater, on average), as opposed to [[thermal neutron]]s used in [[thermal-neutron reactor]]s.35 KB (5,379 words) - 12:53, 15 March 2024
- 12 bytes (1 word) - 09:42, 8 December 2022
- ...tron]]s, requiring fuel rich in [[fissile material]] and not requiring a [[neutron moderator]].245 bytes (36 words) - 12:53, 15 March 2024
- 185 bytes (25 words) - 04:37, 30 November 2011
- 12 bytes (1 word) - 15:41, 25 January 2023
- {{r|Neutron}}721 bytes (105 words) - 23:12, 11 November 2012
- 12 bytes (1 word) - 09:42, 8 December 2022
- {{r|Neutron}}268 bytes (29 words) - 10:56, 17 May 2010
- ...the mean number of [[neutron]]s produced by a [[nuclear fission]] (by one neutron) which cause another fission: (probability to crack a nucleus)*(mean number276 bytes (41 words) - 21:45, 26 November 2012
- ...ticleID=000D5560-D9B2-137C-99B283414B7F0000 Article on recent work on fast-neutron reactors in Scientific American, December, 2005] ...tp://www.world-nuclear.org/info/inf98.html World Nuclear Association: Fast-Neutron Reactors]1,007 bytes (140 words) - 09:40, 8 December 2022
Page text matches
- ...tron]]s, requiring fuel rich in [[fissile material]] and not requiring a [[neutron moderator]].245 bytes (36 words) - 12:53, 15 March 2024
- ...ission device]] with a neutron reflector to reduce escape and increase the neutron density in the reaction, fission efficiency climbs288 bytes (41 words) - 15:15, 3 May 2010
- ...], which are bound together by the strong nuclear force, the neutrons in a neutron star are bound together by [[Gravitation|gravity]].415 bytes (69 words) - 15:39, 25 January 2023
- ...h a positive charge (a [[positron]]) is created when a proton changes in a neutron. Positrons are also called beta particles, and hence the name ''beta decay' ...of two down quarks and one up quark. The weak force changes a proton in a neutron by changing an up quark to a down quark and creating another particle, the1 KB (249 words) - 05:57, 18 May 2010
- ...the mean number of [[neutron]]s produced by a [[nuclear fission]] (by one neutron) which cause another fission: (probability to crack a nucleus)*(mean number276 bytes (41 words) - 21:45, 26 November 2012
- #REDIRECT [[Neutron]]21 bytes (2 words) - 18:12, 17 May 2010
- #REDIRECT [[Neutron moderator]]31 bytes (3 words) - 22:52, 11 November 2012
- #REDIRECT [[Effective neutron multiplication factor/Definition]]64 bytes (6 words) - 21:27, 26 November 2012
- {{r|Neutron}} {{r|Neutron}}467 bytes (60 words) - 09:35, 29 March 2024
- ...as [[beryllium]] or [[hydrogen]]) restrict the flow of particles (e.g., [[neutron]]s) while high-Z materials (e.g., [[lead]], [[uranium]]) block radiation).409 bytes (62 words) - 16:30, 11 May 2010
- ...>{{Subpages}}</noinclude>The force holding assemblies of [[proton]]s and [[neutron]]s together104 bytes (14 words) - 14:44, 1 September 2011
- ...ticleID=000D5560-D9B2-137C-99B283414B7F0000 Article on recent work on fast-neutron reactors in Scientific American, December, 2005] ...tp://www.world-nuclear.org/info/inf98.html World Nuclear Association: Fast-Neutron Reactors]1,007 bytes (140 words) - 09:40, 8 December 2022
- The part of an [[atom]] which contains its [[proton]]s and [[neutron]]s.108 bytes (16 words) - 03:37, 18 August 2009
- Devices or [[radioisotope]]s that provide a source of [[neutron]]s for applications119 bytes (16 words) - 20:11, 5 May 2010
- ...ical [[elements|element]] [[hydrogen]] containing one [[proton]] and two [[neutron]]s.177 bytes (20 words) - 15:03, 7 December 2008
- Argonne Lab's best design, a metal-fueled, sodium-cooled, [[Fast neutron reactor]].83 bytes (10 words) - 06:40, 17 March 2023
- ...] of the chemical element [[hydrogen]] containing one [[proton]] and one [[neutron]].134 bytes (16 words) - 13:44, 7 July 2008
- ...(1918- ) who was awarded a Nobel Prize for his work in the development of neutron spectroscopy.150 bytes (21 words) - 21:59, 22 May 2008
- A substance, which absorbs [[neutron]]s, and is used to control the rate of fission in a [[nuclear reactor]]144 bytes (22 words) - 19:15, 10 May 2010
- ...eory]] which supposes that fundamental particles such as [[proton]]s and [[neutron]]s are made up of interacting [[quark]]s and [[gluon]]s.159 bytes (26 words) - 10:35, 12 April 2011
- ...nge ballistic missile; 100 kt in Mod 0; Mod 3 was "enhanced radiation" or "neutron bomb"165 bytes (21 words) - 00:07, 11 June 2011
- ...e [[Standard Model|strong force]], such as a [[meson]], [[proton]], or a [[neutron]].183 bytes (27 words) - 14:30, 3 September 2011
- ...ron with the parent nucleus. A very few fissions occur without an initial neutron collision and are called ''spontaneous fissions''. A repeated cycle of neu2 KB (234 words) - 09:58, 11 April 2022
- ...eflection|neutron reflector]] surrounding the fission core, increasing its neutron density, and decreasing the size of the device. A [[beryllium reflector]] w1 KB (173 words) - 19:35, 31 December 2020
- An [[atom]] of a chemical [[element]] with a specific number of [[neutron]]s and hence a specific [[nuclear mass]], such as [[carbon]]-14 (<sup>14</s191 bytes (29 words) - 10:42, 6 July 2008
- ...upernova, but not so much mass that it forms a [[black hole]] instead of a neutron star.192 bytes (33 words) - 15:40, 25 January 2023
- A means of increasing the number and intensity of [[neutron]]s released during the implosion of a [[fission device]], by the precisely236 bytes (33 words) - 16:50, 6 May 2010
- ...ermalizes) the speed, thereby reducing the [[kinetic energy]], of flying [[neutron]]s by collision of the neutrons with the small nuclei.251 bytes (35 words) - 10:42, 12 November 2012
- A '''reactor moderator''' controls the flow of [[neutron]]s in a [[nuclear reactor]], often in the form of control rods which increa ...e inserted to their maximums. Solutions containing high concentrations of neutron absorbers can be used to flood a reactor and do an emergency shutdown. [[Be4 KB (575 words) - 09:51, 8 December 2022
- ...number]] splits into two nuclei of lower atomic numbers and one or more [[neutron]]s and a relatively large release of energy per atom.313 bytes (49 words) - 09:57, 11 April 2022
- ...ission]] and [[nuclear fusion]]. Radioactivity includes both the gain of [[neutron]]s changing the mass of the nucleus, and [[radioactive decay]], where it em363 bytes (49 words) - 19:54, 12 May 2010
- The '''Natrium reactor''' is a [[Fast neutron reactor|Fast Neutron Reactor]] using uranium metal as the fuel and molten sodium as the coolant. Fast Neutron Reactors can achieve a much higher burnup of the fuel, resulting in fewer g3 KB (532 words) - 14:13, 12 November 2023
- {{r|Neutron embrittlement}}150 bytes (16 words) - 01:01, 6 November 2008
- {{r|Neutron}}268 bytes (29 words) - 10:56, 17 May 2010
- {{main|Neutron}} '''Neutron generators''' are the source of neutrons for various applications. The diff6 KB (938 words) - 21:00, 5 May 2010
- ...lement [[hydrogen]] that has a nucleus containing one [[proton]] and two [[neutron]]s (i.e., atomic weight 3.016). A compound containing tritium is said to b Its major use is in [[neutron generator]]s and [[tritium boosting]] for [[fission device]]s, and, mixed1 KB (194 words) - 05:43, 6 March 2024
- ...ut five times the size of the sun, which occurs when the star collapses; a neutron star or a black hole may be formed as a result, or the explosion results in394 bytes (68 words) - 05:35, 19 July 2010
- {{r|Neutron}}327 bytes (40 words) - 17:31, 5 April 2011
- ...nucleus]] of a [[chemical element]]. When free (not bound to a nucleus), a neutron can have important physical, chemical, and biological<ref name=WHOion>{{cit The mass ''m''<sub>n</sub> of a neutron<ref name=NIST1>9 KB (1,298 words) - 09:02, 4 May 2024
- ...d multiple of one-half. Examples include the electron, the proton, and the neutron.468 bytes (72 words) - 20:43, 12 November 2020
- ...ve objects, where the objects are much more massive than the [[Sun]], e.g. neutron stars or black holes.586 bytes (83 words) - 22:36, 21 November 2020
- {{r|Neutron}}479 bytes (61 words) - 11:59, 11 January 2010
- {{r|neutron}} {{r|Neutron}}2 KB (289 words) - 12:57, 15 March 2024
- {{r|Neutron}}569 bytes (73 words) - 19:06, 11 January 2010
- ...ekhar limit]] of 1.4 sun masses. This degenerate object then implodes to a neutron star, but rebound and photodissociation processes also causes the outer par ...n as [[nuclear binding energy]], nucleons such as [[proton|protons]] and [[neutron|neutrons]] will weigh a little less when they are bound in a nucleus than w4 KB (664 words) - 16:43, 28 November 2010
- {{r|Neutron}}619 bytes (80 words) - 07:50, 28 September 2021
- {{r|Neutron}}721 bytes (105 words) - 23:12, 11 November 2012
- ...goes implosion. The presence of the tritium will increase the number of [[neutron]]s generated by the Primary nuclear weapon.779 bytes (117 words) - 17:02, 22 March 2024
- ...terials temporarily [[radioactivity|radioactive]] for procedures such as [[neutron activation analysis]]. While there can be some overlap of functions, larg ...eactor has a number of '''control rods''' consisting of a material which [[Neutron capture|captures neutrons]]. These control rods can be withdrawn from or i10 KB (1,554 words) - 14:19, 24 January 2023
- {{r|Neutron}}929 bytes (121 words) - 18:00, 1 April 2024