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- {{r|Standard Model}}766 bytes (100 words) - 17:40, 4 October 2011
- ...p://books.google.com/books?id=JcvWry8rjTwC&pg=PA48 |title=Symmetry and the Standard Model: Mathematics and Particle Physics |publisher=Springer |isbn= 1441982663 |ch907 bytes (132 words) - 13:42, 6 July 2012
- {{r|Standard Model}}748 bytes (116 words) - 11:51, 14 September 2011
- {{r|Standard Model}}923 bytes (148 words) - 11:41, 14 September 2011
- {{r|Standard Model}}1,015 bytes (161 words) - 10:16, 24 September 2011
- {{r|Standard Model}}1 KB (160 words) - 14:49, 12 October 2011
- In the [[Standard Model]] elementary particles fall into different groups: the group of "particles"1 KB (184 words) - 10:03, 9 July 2012
- ...Model]], as well as investigation of the validity of theories “beyond” the Standard Model such as [[Supersymmetry]], [[Technicolor]], and [[Extra Dimensions]]. In a == Standard Model Higgs ==6 KB (918 words) - 23:16, 25 March 2011
- The '''Higgs boson''' is a massive spin-0 [[elementary particle]] in the [[Standard Model]] of [[particle physics]] that plays a key role in explaining the mass of o ...interaction have mass, that left an unanswered question in the original [[Standard Model]]. So a scalar field was added, called the Higgs field. The quantum of the8 KB (1,119 words) - 14:16, 18 September 2020
- In the [[Standard Model]] the pions are ''colorless'': the antiquark of the quark-antiquark pair mu ''See also the articles'' [[Quark]] ''and'' [[Standard Model]]6 KB (980 words) - 10:29, 18 June 2012
- ''See also the article'' [[Standard Model]].1 KB (209 words) - 16:58, 5 March 2012
- ...the principles of [[special relativity]], but has been superseded by the [[Standard Model]], where electromagnetic force is combined with the [[weak force]] to becom2 KB (277 words) - 07:56, 13 October 2011
- According to the [[Standard_Model#Quarks|standard model]] of particle physics, '''quarks''' are one of the two fundamental building3 KB (489 words) - 07:22, 28 May 2022
- {{r|Standard Model}}2 KB (289 words) - 12:57, 15 March 2024
- According to the [[standard model]], protons are composed of three [[quark]]s: two [[up quark|up quarks]] and ...ew [[Large Hadron Collider]], that promulgated and verified quarks and the standard model.5 KB (829 words) - 21:52, 21 July 2020
- ...odel.PNG|right|200px|The fundamental particles and messenger quanta of the Standard Model.}} ...which remains an elusive goal of the ultimate "theory of everything". The Standard Model is accordingly not consistent with [[general relativity]]. The theory is co21 KB (3,012 words) - 22:02, 24 October 2020
- ...ynamics|QCD vacuum]] to produce the observed sub-atomic particles of the [[Standard Model]]. The Higgs field is the order parameter breaking "electroweak gauge symme3 KB (418 words) - 04:17, 19 September 2013
- Originally, the [[Standard Model]] considered neutrinos to be massless. However, having observed neutrino os ...the universe, there is vastly more matter than antimatter. However, in the Standard Model of physics, there is no discernable reason why this should be so. The neutr8 KB (1,160 words) - 04:28, 7 October 2013
- ...ong to the [[lepton]]s, one of two types of fundamental particles in the [[Standard Model]] of particle physics, the other being the [[quark]]s. On a larger scale, [3 KB (445 words) - 20:16, 19 November 2020
- ...]], the [[weak force]] and the [[strong force]]). See the article on the [[Standard Model]].4 KB (661 words) - 14:58, 1 September 2011