Electric charge: Difference between revisions
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In reference to the [[physics]] and [[chemistry]] of [[electricity]], <b>charge</b> | In reference to the [[physics]] and [[chemistry]] of [[electricity]], <b>charge</b> is a fundamental property of [[matter]] that causes matter having that property to generate and react to a [[force]] of attraction or repulsion to spatially separate matter that likewise manifests the property of charge. Classically, two types of charge are known, ''magnetic'' and ''electric''. The distinguishing property of '''electric charge''' is that electric charges can be isolated, while while an isolated magnetic charge or [[magnetic monopole]] never has been observed.<ref name=Giancoli/><ref name=gibilisco2005/><ref name=elert2010/><ref name=elert2010b/> | ||
Whatever constitutes electric charge | Whatever constitutes electric charge, it exists with two separate qualities, or polarities, assigned the names 'positive' and 'negative', or 'plus' and 'minus'. The ''attractive'' force between electrically charged entities arises between ''oppositely-charged'' entities—positive-negative—whereas the ''repulsive'' force arises between ''like-charged'' entities—positive-positive, or negative-negative. | ||
Familiar examples of positively charged matter are [[proton]]s, constituents of the [[Atomic nucleus|nuclei]] of [[atom]]s, and familiar examples of negatively charged matter are [[electron]]s, constituents of atoms that surround their nuclei. | Familiar examples of positively charged matter are [[proton]]s, constituents of the [[Atomic nucleus|nuclei]] of [[atom]]s, and familiar examples of negatively charged matter are [[electron]]s, constituents of atoms that surround their nuclei. | ||
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<ref name=gibilisco2005> | <ref name=gibilisco2005> | ||
{{cite book |author=Gibilisco S. |year=2005|url=http://www.questia.com/PM.qst?a=o&d=116740585 |title=Electricity Demystified|publisher=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]. | {{cite book |author=Gibilisco S. |year=2005|url=http://www.questia.com/PM.qst?a=o&d=116740585 |title=Electricity Demystified|publisher=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]. | ||
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<ref name=Giancoli> | |||
{{cite book |title=Physics for scientists and engineers with modern physics |author=Douglas C. Giancoli |url=http://books.google.com/books?id=xz-UEdtRmzkC&pg=PA708 |pages=p. 708 |isbn=0132273594 |publisher=Pearson Education |edition=4rth ed}} | |||
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Revision as of 07:54, 28 July 2011
- See also: Electricity
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. |
In reference to the physics and chemistry of electricity, charge is a fundamental property of matter that causes matter having that property to generate and react to a force of attraction or repulsion to spatially separate matter that likewise manifests the property of charge. Classically, two types of charge are known, magnetic and electric. The distinguishing property of electric charge is that electric charges can be isolated, while while an isolated magnetic charge or magnetic monopole never has been observed.[1][2][3][4]
Whatever constitutes electric charge, it exists with two separate qualities, or polarities, assigned the names 'positive' and 'negative', or 'plus' and 'minus'. The attractive force between electrically charged entities arises between oppositely-charged entities—positive-negative—whereas the repulsive force arises between like-charged entities—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 bi-polarity, such as yin/yang, black/white, 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.
Discovery and naming of electric charge
The ancient Greeks as far back as the beginning of the 6th century BCE, beginning with Thales of Miletus, had observed some of the simple phenomenology related to electric charge, Thales demonstrating it using the fossilized tree resin, amber, rubbed with cloth:[5] [6]
That little piece of amber rubbed by Thales, some 2,500 years ago, appeared then to be very insignificant. Had the world but known, it was fraught with vast possibilities; for, in point of fact, Thales had unconsciously rediscovered Aladdin's Wonderful Lamp. As he rubbed, the Genie of electricity appeared, and demanded, "What wouldst thou have? I am ready to obey thee as the slave of the lamp, I and the other slaves of the lamp." But the question remained unanswered. Neither Thales nor the witnesses of his experiment made any request nor asked its genii to aid them. They had ears, but they heard not, and so the genie disappeared, with all that he was both willing and able to do left undone.
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In 600 B.C. Thales, erudite philosopher and astronomer in the thriving Ionian port of Miletus, observed the special qualities of the rare yellow orange amber, jewel-like in its hardness and transparency. If rubbed briskly with a cloth, Thales showed, amber seemed to come alive, causing light objects—like feathers, straw, or leaves—to fly toward it, cling, and then gently detach and float away. Amber was similar to a magnet in its qualities, yet it was not a lodestone. As a youth, Thales of Miletus had studied in the sacred Egyptian cities of Memphis and Thebes. Perhaps it was there, under the burning sun, that this earliest of Greek philosophers first learned from the priests about the prized amber, with its seeming possession of a soul.[6]
Thales, it appears, believed amber an animate thing, something with soul.[7]
The Greek word for amber, elektron, ultimately through Latin, electrum, gave rise to the English words, electrical and electric — words used to refer to the amber phenomenon before the publication of William Gilbert's landmark work, De magnete, in 1600, describing the results of the first systematic experimental studies of magnetic and electrical phenomena in Western science.[8][9][10]
The word, charge, used in its electrical sense, was first used by Benjamin Franklin, in 1747, as a verb, and subsequently by him as adjective and noun:
Our spheres are fixed on iron axes, which is passed through them. At one and of the axis there is a small handle, with which you turn the sphere like a common grindstone. This we find very commodious, as the machine takes up little room, is portable, and may be enclosed in a tight box, when not in use. 'Tis true, the sphere does not turn so swift as when the great wheel is used, but swiftness we think of little importance, since a few turns will charge the phial, etc., sufficiently. [italics added] [11]
Presumably, Franklin, who, in his many writings, frequently used the word, charge, and its variant forms (charging, charged, etc.), in its non-electrical sense, had in mind the word's sense of 'loading' or 'filling' something:
charge - ORIGIN: Middle English (in the general senses ‘to load’ and ‘a load’): from Old French charger (verb), charge (noun), from late Latin carricare, carcare ‘to load,’ from Latin carrus ‘wheeled vehicle.’...Examples: load or fill (a container, gun, etc.) to the full or proper extent: will you see to it that your glasses are charged? | fill or pervade (something) with a quality or emotion: the air was charged with menace.[12]
William Gilbert, founder of electrical science
“Although the precise beginnings of electrical science are contestable, no one doubts that William Gilbert (1540–1603), an Englishman, carried out the first sustained and influential research on electrical phenomena.”[13]
References
- ↑ Douglas C. Giancoli. Physics for scientists and engineers with modern physics, 4rth ed. Pearson Education, p. 708. ISBN 0132273594.
- ↑ Gibilisco S. (2005). Electricity Demystified. McGraw-Hill. Stan Gibilisco is an electronics engineer and mathematician, author of numerous technical books on electronics and mathematics.
- ↑ Glenn Elert (1998-2010). The electric charge: Summary. The Physics Hypertextbook. Retrieved on 2011-07-27.
- ↑ Glenn Elert (1998-2010). The electric charge: Discussion. The Physics Hypertextbook. Retrieved on 2011-07-27.
- ↑ 5.0 5.1
Houston EJ. (1905). Electricity in every-day life. P. F. Collier & Son. Title link: Google Book Full-Text Volume 1 of 3.
- That little piece of amber rubbed by Thales, some 2,500 years ago, appeared then to be very insignificant. Had the world but known, it was fraught with vast possibilities; for, in point of fact, Thales had unconsciously rediscovered Aladdin's Wonderful Lamp. As he rubbed, the Genie of electricity appeared, and demanded, "What wouldst thou have? I am ready to obey thee as the slave of the lamp, I and the other slaves of the lamp." But the question remained unanswered. Neither Thales nor the witnesses of his experiment made any request nor asked its genii to aid them. They had ears, but they heard not, and so the genie disappeared, with all that he was both willing and able to do left undone.
- ↑ 6.0 6.1 Jonnes J. (2004). Empires of Light: Edison, Tesla, Westinghouse, and the Race to Electrify the World. Random House Digital, Inc.. ISBN 0375758844. Title link: a Google Books extract.
- ↑ Barnes J. (1982). The Presocratic Philosophers. Psychology Press. ISBN 9780415050791. Title link: Google Book extract.
- ↑ Webster's Third New International Dictionary, Unabridged: electric. Merriam-Webster, Inc.. Retrieved on 2011-07-27.
- ↑ W Gilbert (1958). De magnete magnetisque corporibus, et de magno magnete telluro, Reprint of the Wiley 1893 translation of Gilbert's 1600 work in Latin by Dr. P. Fleury Mottelay. Courier Dover. ISBN 048626761X.
- ↑ Steven Weinberg (2003). “Chapter 2: The discovery of the electron”, The discovery of subatomic particles, 2nd ed. Cambridge University Press, p. 11. ISBN 052182351X. “It was Gilbert who introduced the term electric (electrica in the Latin of his text), after the Greek word electron (ηλεκτρον) for amber.”
- ↑
Franklin B. (1769). Experiments And Observations On Electricity, Made At Philadelphia in America: To which are added, Letters and Papers On Philosophical Subjects. David Henry. Title link: Google Books Full-Text
- See pages 311 for Franklin's 1747 letter to Peter Collinson, with Franklin's first use of 'charge'.
- ↑ Angus Stevenson and Christine A. Lindberg, eds:New Oxford American Dictionary. Oxford University Press; Oxford Reference Online. (2010).
- ↑ Schiffer MB, Hollenbeck KL, Bell CL (2006). Draw the Lightning Down: Benjamin Franklin and Electrical Technology in the Age of Enlightenment. University of California Press, p. 13. ISBN 0520248295.