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...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 ρ('''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.