neutralizer$52509$ - ترجمة إلى اليونانية
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neutralizer$52509$ - ترجمة إلى اليونانية

STUDY OF STATIONARY ELECTRIC CHARGES
Electrostatic; Coulombic attraction; Electrostatic repulsion; Static eliminator; Electrostatic interaction; Electrostatic interactions; Classical electrostatics; Charge-charge interaction; Charge-neutralizer; Electro-static; Electrostatically
  •  accessdate = 18 June 2021}}</ref>  This effect is also the cause of [[static cling]] in clothes.
  • The [[electrostatic field]] ''(lines with arrows)'' of a nearby positive charge ''<span style="color:red;">(+)</span>'' causes the mobile charges in conductive objects to separate due to [[electrostatic induction]]. Negative charges ''<span style="color:blue;">(blue)</span>'' are attracted and move to the surface of the object facing the external charge. Positive charges ''<span style="color:red;">(red)</span>'' are repelled and move to the surface facing away. These induced surface charges are exactly the right size and shape so their opposing electric field cancels the electric field of the external charge throughout the interior of the metal. Therefore, the electrostatic field everywhere inside a conductive object is zero, and the [[electrostatic potential]] is constant.
  • [[Lightning]] over [[Oradea]] in [[Romania]]

neutralizer      
n. εξουδετερώτης

تعريف

Electrostatics
·noun That branch of science which treats of statical electricity or electric force in a state of rest.

ويكيبيديا

Electrostatics

Electrostatics is a branch of physics that studies electric charges at rest (static electricity).

Since classical times, it has been known that some materials, such as amber, attract lightweight particles after rubbing. The Greek word for amber, ἤλεκτρον (ḗlektron), was thus the source of the word 'electricity'. Electrostatic phenomena arise from the forces that electric charges exert on each other. Such forces are described by Coulomb's law.

Even though electrostatically induced forces seem to be rather weak, some electrostatic forces are relatively large. The force between an electron and a proton, which together make up a hydrogen atom, is about 36 orders of magnitude stronger than the gravitational force acting between them.

There are many examples of electrostatic phenomena, from those as simple as the attraction of plastic wrap to one's hand after it is removed from a package, to the apparently spontaneous explosion of grain silos, the damage of electronic components during manufacturing, and photocopier & laser printer operation. Electrostatics involves the buildup of charge on the surface of objects due to contact with other surfaces. Although charge exchange happens whenever any two surfaces contact and separate, the effects of charge exchange are usually noticed only when at least one of the surfaces has a high resistance to electrical flow, because the charges that transfer are trapped there for a long enough time for their effects to be observed. These charges then remain on the object until they either bleed off to ground, or are quickly neutralized by a discharge. The familiar phenomenon of a static "shock" is caused by the neutralization of charge built up in the body from contact with insulated surfaces.