Theory and Calculation of Electric Apparatus Formula Map

Formula Map

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300

Formula and equation candidates.

136

Strong formula candidates.

105

Reviewable relation candidates.

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Formula Families

Family	Candidates
Apparatus, Machines, And Power Systems	169
Symbolic AC And Complex Quantities	63
General Equation Candidates	52
Impedance, Reactance, And Admittance	11
Waves, Lines, Radiation, And Frequency	1
Transients, Oscillation, And Damping	1
Engineering Mathematics Foundations	1
Inductance, Capacity, And Stored Energy	1
Power, Energy, Work, And Efficiency	1

Highest-Priority Candidates

Candidate	Family	OCR/PDF text	Routes
`theory-calculation-electric-apparatus-eq-candidate-0028` strong-formula-candidate	symbolic-ac	`= - J = (tan a - j) (7)`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0004` strong-formula-candidate	symbolic-ac	`Zo = r„+ j”j:0 =0.1 +0.3j;`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0029` strong-formula-candidate	symbolic-ac	`Assuming tan a = 0.6, which is a fair value for a closed mag-`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0030` strong-formula-candidate	symbolic-ac	`Y’ = bg (0.6 - j),`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0032` strong-formula-candidate	symbolic-ac	`Y0 = 0.02 - 0.2 j;`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0033` strong-formula-candidate	symbolic-ac	`Zo = 0.05 + 0.15 j;`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0034` strong-formula-candidate	symbolic-ac	`Zi = 0.05 + 0. 15 j;`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0047` strong-formula-candidate	symbolic-ac	`Z0 = 0.033 + 0.1 j;`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0048` strong-formula-candidate	symbolic-ac	`Zx = 0.033 + 0.1 j;`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0054` strong-formula-candidate	symbolic-ac	`e„ = 110; >’„ = 0.01 - 0.\j;ZB =0.1 + 0.3 j; Z, = 0.1 +0.3J`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0068` strong-formula-candidate	symbolic-ac	`m = ri2 + (sxi - j`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0070` strong-formula-candidate	symbolic-ac	`c2 = jr - j- (6)`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0079` strong-formula-candidate	symbolic-ac	`Z0 = Zi = 0.1 + 0.3 j,`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0083` strong-formula-candidate	symbolic-ac	`Za = r0 + jx0, Za = r„ + j’xo.`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0085` strong-formula-candidate	symbolic-ac	`Four poles, 1800 rev.:Z0 = n + jxQ = 0.1 + 0.3 j;`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0086` strong-formula-candidate	symbolic-ac	`Zx = ri+jxt -0.1 + 0.3j; Y, = g - jb = 0.01 - 0.05 j.`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0087` strong-formula-candidate	symbolic-ac	`Six poles, 1200 rev. :Z0 = U + jx0 = 0.15 + 0.45 j;`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0088` strong-formula-candidate	symbolic-ac	`Zx -= n + jxi = 0.15 + 0.45 j; Y0 = g -jb = 0.0067 - 0.0667 j.`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0090` strong-formula-candidate	symbolic-ac	`Zi = r, + jx, = 0.2 + 0.6 j; Y0 = g - jb = 0.005 - 0.1 j.`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0117` strong-formula-candidate	symbolic-ac	`Z2 = 0.08 + 0.4 j ;`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0118` strong-formula-candidate	symbolic-ac	`}ro = 0.01 - 0.1 j;`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0148` strong-formula-candidate	symbolic-ac	`/j = r0di - Xo^2`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0152` strong-formula-candidate	symbolic-ac	`(/j = 6i + /i`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0167` strong-formula-candidate	symbolic-ac	`Z2 = 0.2 + 0.3 j;`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0168` strong-formula-candidate	symbolic-ac	`Z3 = 0.05 + 0.8 j;`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0169` strong-formula-candidate	symbolic-ac	`I’o = 0.01 - 0.1 j;`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0221` strong-formula-candidate	symbolic-ac	`Z = Z„ + Z, = (r0 + ri) + j (xn + x,)`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0229` strong-formula-candidate	symbolic-ac	`Primary exciting admittance: Ya = 0.02 - 0.6 j.`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0231` strong-formula-candidate	symbolic-ac	`Secondary self-inductive impedance: Zi = 0.1 + 0.3 j.`	source workbench
`theory-calculation-electric-apparatus-eq-candidate-0267` strong-formula-candidate	apparatus-systems	`” -Pi = U (e0 - ri\ - xi2) + it (xit - n2), (16)`	source workbench