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CHEMICAL, ENVIRONMENTAL, PETROLEUM AND GAS ENGINEERING
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23 R S Burd, A Study of Sludge Disposal and Handling (Publication No WP-20-4), US Department of the Interior, Federal Water Pollution Control Administration, Washington, DC, May 1968 24 US Public Health Service, Publications AP-49, Particulates, 1969; AP-50, SOx , 1969; AP-62, CO, 1970, Washington, DC 25 US Environmental Protection Agency, Publications AP-63, Oxidants, 1970; AP-64, Hydrocarbons, 1970; AP-84, NOx , 1971 26 D B Turner, Workbook of Atmospheric Dispersion Estimates (Publication No AP-26), US Environmental Protection Agency, Washington, DC, 1970 27 Hosler, Low Level Inversion Frequency in the Contiguous US, Monthly Weather Review 89: 319 339, 1961 28 US Environmental Protection Agency, Method V Sampler, Federal Register 36: 24893, 1971 29 Ensor and Pilat, Journal of the Air Pollution Control Association 21: 496 501, 1971 30 McGraw-Hill Encyclopedia of Science and Technology, 6th ed McGraw-Hill, New York, 2003
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ELECTRICAL ENGINEERING*
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BASIC ELECTRICAL DEVICES AND THEIR SYMBOLS
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The following symbols are used to represent the basic linear electrical components:
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* This chapter originally dates from General Engineering Handbook, 2d ed, by C E O Rourke Copyright 1940 Used by permission of McGraw-Hill Updated by the editors in 1991, and revised and updated by Myke Predko in 2002
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Copyright 2003 by The McGraw-Hill Companies, Inc Click Here for Terms of Use
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CHAPTER SIXTEEN
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ELECTRIC CIRCUITS AND THEIR CHARACTERISTICS
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1 Electric Charge Q and Current l The entities of electricity are called elec-
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trons Each electron carries a charge Q 159 10 19 coulomb When electrons are set in motion, they produce an electric current denoted by the letter I or i Electric current is measured in amperes and is equal to the charge in coulombs passing a given point per second, or I dQ dt (161)
The symbolic notation for current is an arrow
2 Electromotive Force emf or E The agency which can set electrons in motion
is called electromotive force (abbreviated emf and denoted by the letter E or e) The unit of electromotive force is the volt There are several sources of emf, of which the following may be mentioned: 1 The motion of a metallic body in a magnetic eld (This is the agency which creates emf in rotating electrical machines) 2 The change in the value of a magnetic eld in the neighborhood of a metallic body (This is the agency which creates emf in transformers) 3 Chemical reactions (These are the cause of emf in storage batteries) 4 Light (This is the cause of emf in photoelectric cells) 5 Heat (This is the cause of emf in a junction of two unequally heated metals) 6 Pressure (This is the cause of emf in certain crystals subject to mechanical pressure) In electrical engineering, it is customary to distinguish between two types of emf sources, as follows: Direct (continuous or unidirectional ) emf, which continues in the same direction with the light vertical line representing A symbolic notation for direct emf is the positive terminal and the small block representing the negative terminal
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Alternating emf, which varies periodically, and the mean value of which during each period is zero A symbolic notation for alternating emf is a short wavy line:
3 Circuits and Their Characteristics Any arrangement in which electric cur-
rent may ow is called a circuit By de nition, a circuit may contain an emf source to set the electrons in motion and a body through which the current may ow The body through which current ows is known as the characteristic (or parameter) of the circuit
4 Types of Circuit Characteristics There are three fundamental types of circuit
characteristics: (1) resistance, (2) inductance, and (3) capacitance
5 Electric Resistance (R or r) With the present meager knowledge of the nature of electricity, it is not possible to explain the physical nature of electric resistance It can be de ned, however, through certain empirical relations These are (1) Ohm s law and (2) Joule s law
Ohm s Law If an unvarying emf (Fig 161) is impressed on a homogeneous metallic conductor, and if the temperature of that conductor is held constant, then the ratio of the current I in the conductor to the impressed emf E is constant This constant ratio may be expressed in two ways: R G E I I E (162a) (162b)
R is known as the resistance of the conductor, and G 1 / R is called its conductance The unit of resistance is the ohm The unit of conductance is the mho Equations (162) give a mathematical statement of Ohm s law and incidentally de ne resistance and conductance The following limitations of Ohm s law must be emphasized: 1 Ohm s law holds true only for homogeneous metallic conductors It fails to be applicable, for example, in the case of liquid and gaseous conductors, of conducting dielectric materials, or of two dissimilar metals joined or welded together
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