Theory and Calculation of Alternating Current Phenomena Formula Map

Formula Map

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300

Formula and equation candidates.

103

Strong formula candidates.

Reviewable relation candidates.

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Formula Families

Family	Candidates
General Equation Candidates	105
Inductance, Capacity, And Stored Energy	78
Impedance, Reactance, And Admittance	57
Symbolic AC And Complex Quantities	39
Waves, Lines, Radiation, And Frequency	9
Magnetism, Hysteresis, And Core Loss	4
Power, Energy, Work, And Efficiency	3
Apparatus, Machines, And Power Systems	2
Transients, Oscillation, And Damping	2
Engineering Mathematics Foundations	1

Highest-Priority Candidates

Candidate	Family	OCR/PDF text	Routes
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0001` strong-formula-candidate	symbolic-ac	`1.) Ohm’s law : i = e j r, where r, the resistance, is a`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0161` strong-formula-candidate	symbolic-ac	`but E = E^y I^E^j z. If x^ > - 2,t-, it raises, if ;r < - 2 jr,`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0251` strong-formula-candidate	symbolic-ac	`a maximum for dP^j db = 0, that is, according to § 61, if -`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0016` strong-formula-candidate	symbolic-ac	`/ = / sin =^ (/ - A) = /sin 2 tt A” (/ - A) ;`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0022` strong-formula-candidate	symbolic-ac	`i = Ai sin 2 vNt + A, sin 4 ttNI + A, sin C irNl + …`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0056` strong-formula-candidate	symbolic-ac	`Thus, for instance, at the amplitude AOB^ == </>j = 2ir/j/ T’`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0077` strong-formula-candidate	symbolic-ac	`100 volts, and /j = 75 amperes, for a non-inductive secon-`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0086` strong-formula-candidate	symbolic-ac	`$Fo = V^H^i’ + 2 IFSFi sin Wi ,`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0176` strong-formula-candidate	symbolic-ac	`is r - y (.r + ;r^) = r = .6, x + x^ = 0, and tan w^ = ;`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0198` strong-formula-candidate	symbolic-ac	`X = .9, X = Oy X = - .9, and Z^ = .3 -j .4.`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0255` strong-formula-candidate	symbolic-ac	`this case, a = ::^j 2 r,,, while in a continuous-current circuit`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0002` strong-formula-candidate	power-energy	`2.) Joule’s law : P= i^r, where P is the rate at which`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0008` strong-formula-candidate	inductance-capacity	`circuits. Hence the inductance is L = ^ / 1 = n^ / iR.`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0012` strong-formula-candidate	general-equation-candidates	`posed, hence, i = 2ir NCe the current passing into the con-`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0030` strong-formula-candidate	general-equation-candidates	`B^ the sine varies from to OB = 1. Hence the average`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0063` strong-formula-candidate	impedance-admittance	`resistance, r, and the reactance, x = 2irNLy - where A^ =`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0123` strong-formula-candidate	impedance-admittance	`1.) If r = oc , or ^ = 00 , since in this case no current`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0126` strong-formula-candidate	impedance-admittance	`2.) If r = 0, since in this case the current which passes`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0127` strong-formula-candidate	impedance-admittance	`1.) If ^ = Qo , or r = 00 .`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0128` strong-formula-candidate	impedance-admittance	`2.) If.r=0.`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0129` strong-formula-candidate	impedance-admittance	`hence, zY = (^’ + ^ (^’ + ^^ = 1 ;`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0135` strong-formula-candidate	impedance-admittance	`a maximum for r =x, where ^ = 1 / 2r is equal to the`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0162` strong-formula-candidate	inductance-capacity	`d.) If ;r = 0, that is, if the receiver circuit is non-`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0174` strong-formula-candidate	symbolic-ac	`where J? = 100 volts again ; and for x^> 1.6 the voltage`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0185` strong-formula-candidate	inductance-capacity	`maximum for x^ = +10, x = - 1.0, and r = 0, where`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0272` strong-formula-candidate	general-equation-candidates	`67. If tf = 1, that is, if the voltage at the receiver cir-`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0273` strong-formula-candidate	general-equation-candidates	`If dr = 1 when ^ = 0, ^ =`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0282` strong-formula-candidate	general-equation-candidates	`If ^^ = 2 r^, orjr^ = r^ V3, the maximum output, P =`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0011` strong-formula-candidate	impedance-admittance	`and the ratio, e I i = 2 ir A^Ly is the magnetic reactance :`	source research review
`theory-calculation-alternating-current-phenomena-1897-eq-candidate-0013` strong-formula-candidate	power-energy	`5. In Joule’s law, P = /^r, r is not the true ohmic`	source research review