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- {{r|Electric charge}}1 KB (173 words) - 15:31, 15 October 2011
- </ref>}} a [[electric charge|charge]] equal to the [[elementary charge]] of {{nowrap|1.602 176 487 &time5 KB (829 words) - 21:52, 21 July 2020
- In [[physics]], two static, non-polarizable, electric charge distributions interact via [[Coulomb's law]]. When the charge distributions5 KB (902 words) - 08:21, 30 October 2008
- ...909:''' [[Robert Millikan]]'s [[oil-drop experiment]], which showed that [[electric charge]] occurs as ''[[quantum|quanta]]'' (whole units).4 KB (522 words) - 10:02, 11 April 2008
- ! [[Electric charge|Q]] ([[elementary charge|e]]) ! [[Electric charge|Q]] ([[elementary charge|e]])6 KB (907 words) - 07:58, 28 May 2022
- ...wn in the figure, where the neutron (lower right) emits a pion of negative electric charge to become a positive proton (upper right), while the proton (lower left) ab ! Electric charge (units ''e'')6 KB (980 words) - 10:29, 18 June 2012
- ...ience)|''charge'']], a broad term that includes more than electric charge. Electric charge underlies the phenomena of [[electricity]] and [[Electromagnetism|electroma Electric charge is observed as integer multiples of the elementary charge, with magnitude e21 KB (3,138 words) - 05:36, 6 March 2024
- : ζ is a shielding constant related to the effective [[electric charge|charge]] of the nucleus, the nuclear charge being partly shielded by electr5 KB (822 words) - 17:36, 14 November 2007
- ...c field|electric]] and [[magnetic field|magnetic]] fields are created by [[electric charge]]s and [[electric current]]s and in addition they give relationships betwee Let ρ('''r''', ''t'') be an electric charge density and '''J'''('''r''', ''t'') be an electric current density, both qu18 KB (2,680 words) - 18:46, 16 December 2010
- ...ons that make it up, and the exchange of photons between particles with [[electric charge]] is the mechanism underlying the field's ability to exert an electromagnet ...;,τ</sub>''. For example, the anti-electron or positron has a positive electric charge and a negative electron lepton number ''L<sub>e</sub>''=−1.21 KB (3,012 words) - 22:02, 24 October 2020
- ...rticular, as a special case, the [[Coulomb's_law|Coulomb force]] between [[electric charge|electrically charged]] particles.4 KB (577 words) - 13:21, 3 November 2021
- ...) is the reversal of all internal quantum numbers of a particle, including electric charge. [[Parity]] (P) is the reversal of the spatial coordinates of a particle, e8 KB (1,160 words) - 04:28, 7 October 2013
- ...equal in number to the number of protons, each carried a unit of negative electric charge, rendering the atom as a whole electrically neutral.6 KB (932 words) - 09:45, 13 March 2022
- ...ic units to define the joule. One joule measures the energy released by an electric charge of one [[coulomb]] dropping one [[volt]] in absolute value of electrical po4 KB (686 words) - 19:02, 5 November 2021
- ...±</big></sup>'' and ''Z'' weak bosons. In fact, the properties of mass and electric charge stem from interaction with the reduced symmetry vacuum, and are not a resul8 KB (1,119 words) - 14:16, 18 September 2020
- ...ntermolecular force]] that exists between two [[partial charge|partial]] [[electric charge]]s of opposite polarity. Although stronger than most other [[intermolecular12 KB (1,827 words) - 17:00, 7 March 2024
- ...N0GosC&pg=PA244 |pages=pp. 244 ''ff'' |chapter=§7.5 Renormalization of the electric charge |isbn=0201503972 |publisher=Westview Press |year=1995}} ...P-_KfzkC&pg=PA246 |pages=pp. 246-247 |quote=Thus in QED the presence of an electric charge ''e<sub>o</sub>'' polarizes the "vacuum" and the charge that is observed at19 KB (2,820 words) - 09:33, 18 February 2012
- ...n those [[Elementary particle | particle]]s that possess the property of [[electric charge]], and is in turn affected by the presence and motion of such particles. El14 KB (1,896 words) - 14:20, 27 December 2022
- ...ng noticed that article, [[Electricity]], defines electricity in terms of 'electric charge'. 02:22, 6 July 2011 (UTC)11 KB (1,691 words) - 05:02, 8 March 2024
- ...returning to the object, though he did not realize that this substance ([[electric charge]]) was universal to all materials.<ref name="Heathcote">{{Cite journal | do13 KB (1,985 words) - 07:38, 18 September 2020
- | [[Electric charge]] or [[flux]] | electric charge density || m<sup>−3</sup>·s·A23 KB (3,590 words) - 20:32, 4 February 2024
- ...ct that he now had discovered. Previously, it had been known that a moving electric charge (i.e. a current) produced a magnetic field; now it had been shown that a mo40 KB (6,455 words) - 08:20, 1 September 2013
- ...ct that he now had discovered. Previously, it had been known that a moving electric charge (i.e. a current) produced a magnetic field; now it had been shown that a mo41 KB (6,564 words) - 08:21, 1 September 2013
- ...entities, because some, like charge, don't exist on their own --> (such as electric charge) are ''quantized'', i.e. not infinitely divisible. Indeed, space and time t17 KB (2,773 words) - 20:36, 6 November 2020
- ...egrates, the free neutron does not exist in nature. Neutrons do not carry electric charge: they pass unhindered through the electrical fields within liquids and soli9 KB (1,298 words) - 09:02, 4 May 2024
- *''e'': the [[Electron|electric charge on the electron]]15 KB (2,383 words) - 14:30, 13 January 2017
- In the [[molecular science]]s, a molecule is a sufficiently stable, [[electric charge|electrically]] neutral [[entity]] composed of two or more [[atom]]s.<ref>[h11 KB (1,558 words) - 21:27, 10 November 2020
- ...the other to [[potential energy]]. The Hamiltonian of a particle with no [[electric charge]] and no [[spin (physics)|spin]] is described by the [[Schrödinger wave eq22 KB (3,142 words) - 09:01, 4 May 2024
- ...the other to [[potential energy]]. The Hamiltonian of a particle with no [[electric charge]] and no [[spin (physics)|spin]] is described by the [[Schrödinger wave eq23 KB (3,309 words) - 09:41, 6 March 2024
- ...re, the electron charge ''e'' is more accurately replaced by the effective electric charge ''e*''. The effective charge can have a considerable influence on the confo36 KB (5,455 words) - 11:49, 6 September 2013
- ...re, the electron charge ''e'' is more accurately replaced by the effective electric charge ''e*''. The effective charge can have a considerable influence on the confo36 KB (5,455 words) - 08:57, 12 September 2013
- ...oach, one employed since the inception of quantum mechanics, is to treat [[electric charge|charged]] particles as quantum mechanical objects being acted on by a class37 KB (5,578 words) - 04:54, 21 March 2024
- ...h neutron and proton, so also does the number of electrons (to balance the electric charge). Because these electrons are all at a greater distance from the nucleus,13 KB (2,075 words) - 09:16, 6 March 2024
- ...t comes into contact with a "hot rail" at the unloading trestle, shoots an electric charge through the air dump apparatus and causes the doors on the bottom of the ca46 KB (7,021 words) - 09:01, 4 May 2024
- ...[Rudolf Kohlrausch]] as the factor connecting two different definitions of electric charge (see [[statcoulomb]] and [[abcoulomb]]): by [[Coulomb's law]] and by [[Amp�35 KB (5,595 words) - 12:26, 6 September 2013
- ...mg per day. Glucosamine contains an [[amino group]] that is positively [[electric charge|charged]] at physiological [[pH]]. The [[anion]] included in the salt may22 KB (3,050 words) - 05:38, 2 August 2011
- ...[Rudolf Kohlrausch]] as the factor connecting two different definitions of electric charge (see [[statcoulomb]] and [[abcoulomb]]): by [[Coulomb's law]] and by [[Amp�35 KB (5,571 words) - 12:27, 6 September 2013
- * The detection of [[electric charge|charged]] [[elementary particles|particles]] ([[proton|protons]], [[alpha p46 KB (6,796 words) - 10:08, 28 February 2024