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<ref name=gibilisco2005>Gibilisco S. (2005) [http://www.questia.com/PM.qst?a=o&d=116740585 Electricity Demystified]. New York: McGraw-Hill.
<ref name=gibilisco2005>Gibilisco S. (2005) [http://www.questia.com/PM.qst?a=o&d=116740585 Electricity Demystified]. New York: McGraw-Hill. | Stan Gibilisco is an electronics engineer and mathematician, author of numerous [http://www.amazon.com/Stan-Gibilisco/e/B000APZ4TW/ref=ntt_athr_dp_pel_1 technical books on electronics and mathematics].</ref>
$Stan Gibilisco is an electronics engineer and mathematician, author of numerous [http://www.amazon.com/Stan-Gibilisco/e/B000APZ4TW/ref=ntt_athr_dp_pel_1 technical books on electronics and mathematics].</ref>





Revision as of 10:17, 11 June 2011

Introduction

Once you have established those basic ideas about electricity, "like charges repel and unlike charges attract", then you have the foundation for electricity and can build from there.
—Electric Charge, Hyperphysics Online

In reference to the physics and chemistry of electricity, charge, or more specifically, electric charge—a fundamental property of matter (cf. mass)—causes certain types of matter to generate and react to a force of attraction or repulsion to spatially separate matter that likewise manifests the property of electric charge.[1]

Whatever constitutes electric charge constitutes it in two separate varieties, or polarities, assigned the names 'positive' and 'negative', or 'plus' and 'minus'. The force of attraction between electrically charged items of matter arises between oppositely-charged items—positive-negative—whereas the force of repulsion arises between like-charged items—positive-positive, or negative-negative.

Familiar examples of positively charged matter are protons, constituents of the nuclei of atoms, and familiar examples of negatively charged matter are electrons, constituents of atoms that surround their nuclei.

Given that the terms 'positive' and 'negative' serve only as labels to distinguish the two polarities observed in the electric charge of matter, 'positivity' and 'negativity' do not themselves imply anything about the fundamental nature of electric charge. Other labels connoting di-polarity, such as yin/yang or bitter/sweet, could serve for labeling.

The atoms that comprise the chemical elements of the periodic table, while consisting in part of the electrically charged particles, protons and electrons, do not themselves manifest an electric charge, because protons in the nuclei and the surrounding electrons are equal in number and quantity of charge, that balance ensuring that the atoms as a whole manifest no net electric charge—a state referred to as electrical neutrality.

References

  1. Gibilisco S. (2005) Electricity Demystified. New York: McGraw-Hill. | Stan Gibilisco is an electronics engineer and mathematician, author of numerous technical books on electronics and mathematics.