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The flow of electric charge carried by mobile electrons in a conductor, ions in an electrolyte or both

The flow or presence of electric charge; the flow of electricity is an important carrier of energy.

Unit of electric charge in cgs-esu units: 1 statC = C/(10⋅''c''), with ''c'' the speed of lig

The amount of electric charge (in absolute value) of one mole of electrons or of one mole of monovalent (

...charge]] while a neutron has no charge. So that the law of conservation of electric charge is not violated, another particle with a positive charge (a [[positron]]) i

====Amino Acids with [[Polar]], [[Electric charge|Uncharged]] R-Groups==== ====Amino Acids with [[Electric charge|Positively Charged]] R-Groups====

...[force]] on the charge is in the direction of the electric vector when the electric charge is positive and in the opposite direction when the charge is negative. The

The '''abcoulomb''' (symbol '''abC''') is the unit of electric charge in the cgs-emu (centimeter-gram-second electromagnetic) system of units. O

[[Gauss' law (electrostatics)|Gauss' law]] for electrostatics states that electric charge is the source of flux through a closed surface ...a separate North pole and South pole (the equivalence of a plus and minus electric charge). It was [[Charles-Augustin de Coulomb|Coulomb]] who first investigated th

...mbol '''statC'''), formerly known as '''esu of charge''', is the unit of [[electric charge]] in the cgs-esu (centimeter-gram-second electrostatic system) of units.

...>A [[Special relativity|relativistic]] theory of the interaction between [[electric charge|electrically charged]] bodies based upon the exchange of [[photon]]s, the [

The '''coulomb''', abbreviated '''C''', is the [[SI]] unit of [[electric charge]]. It is defined as the amount of charge passing a point in one [[second]]

Here ρ is the electric charge density and hence this is the Maxwell equation that is equivalent to [[Gaus This is the equation of conservation of electric charge (equation of continuity).

...the first time that this was not correct and currently the smallest known electric charge is <math>e/3</math> (⅓ e), possessed by down [[Quark|quarks]]. The term '

{{r|Electric charge}}

...equals the sum of all the currents leaving the junction. In other words, electric charge is conserved."

{{r|Electric charge}}

...called static electricity, is that by rubbing a balloon against a sweater electric charge is transferred to the balloon. When you hold the charged balloon close to y

...''S'''. The double integral is over a closed surface that envelops a total electric charge ''Q''_tot, which may be the sum over one or more point charges, o

==Electric charge== Leptons can possess [[electric charge]] as in the case of the electron, muon, and tau (all negatively charged), a

...hat the amount of work needed to transport one [[statcoulomb]] (statC) of electric charge from one point to the other is one [[erg]], or 1 statV = 1 erg/statC.

In [[chemistry]], an '''electrolyte''' is any substance that can transport electric charge between two [[electrode]]s that have a [[voltage]] difference between them

The quantity ''q'' is the electric charge of the particle and '''v''' is its velocity. The vector '''B''' is the [[ma

In addition to an electric charge all quarks also carry a colour charge and so will interact via the [[Strong

...s length ''dS''. The conduction current ''I'' gives the rate of change of electric charge in the volume ''V''. Clearly, ''I'' is non-zero during the time that the ca

In [[physics]], '''Coulomb's law''' describes the forces acting between [[Electric charge|electric point charges]]. The law was first given by [[Charles-Augustin de

A static three-dimensional electric charge distributions &rho;('''r''') creates an electric [[potential]] in the space

<tr> <td>&rho; </td> <td>[[Electric charge density]]</td> <td>C/m³ </td> <td><i>c</i>/10⁵

...ganization living organisms. Hydrophilic parts of chemicals often carry an electric charge or a polar moiety, and they are attracted to each other by charge-charge or

In [[physics]], the '''polarizability''' of an electric charge-distribution &rho; describes the ease by which &rho; can be polarized unde ...s" a positive charge in the direction of the vector and "pulls" a negative electric charge in opposite direction (against the direction of '''E'''). Because of this "

{{r|Electric charge}}

</ref>}} a [[electric charge|charge]] equal to the [[elementary charge]] of {{nowrap|1.602 176 487 &time

In [[physics]], two static, non-polarizable, electric charge distributions interact via [[Coulomb's law]]. When the charge distributions

...909:''' [[Robert Millikan]]'s [[oil-drop experiment]], which showed that [[electric charge]] occurs as ''[[quantum|quanta]]'' (whole units).

! [[Electric charge|Q]] ([[elementary charge|e]]) ! [[Electric charge|Q]] ([[elementary charge|e]])

...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'')

...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 e

: &zeta; is a shielding constant related to the effective [[electric charge|charge]] of the nucleus, the nuclear charge being partly shielded by electr

...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 &rho;('''r''', ''t'') be an electric charge density and '''J'''('''r''', ''t'') be an electric current density, both qu

...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 ...;,&tau;</sub>''. For example, the anti-electron or positron has a positive electric charge and a negative electron lepton number ''L_e''=−1.

...rticular, as a special case, the [[Coulomb's_law|Coulomb force]] between [[electric charge|electrically charged]] particles.

...) 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, e

...equal in number to the number of protons, each carried a unit of negative electric charge, rendering the atom as a whole electrically neutral.

...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 po

...±</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 resul

...ntermolecular force]] that exists between two [[partial charge|partial]] [[electric charge]]s of opposite polarity. Although stronger than most other [[intermolecular

...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_o'' polarizes the "vacuum" and the charge that is observed at

...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. El

...ng noticed that article, [[Electricity]], defines electricity in terms of 'electric charge'. 02:22, 6 July 2011 (UTC)

...returning to the object, though he did not realize that this substance ([[electric charge]]) was universal to all materials.<ref name="Heathcote">{{Cite journal | do