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Reactance Concordance

Reactance

Section titled “Reactance”

Concordance status: generated from processed OCR/PDF text. Treat these as source-location aids until each passage is checked against the scan.

2490 hits

Total text matches across processed Steinmetz sections.

13 sources

Sources containing at least one matched alias.

188 sections

Chapters, lectures, sections, or report divisions with matches.

Matched Aliases

Section titled “Matched Aliases”

condensive reactance, inductive reactance, reactance, reactive

Source Distribution

Section titled “Source Distribution”
SourceHitsSections
Theory and Calculation of Alternating Current Phenomena50226
Theory and Calculation of Electric Circuits44214
Theory and Calculation of Alternating Current Phenomena28522
Theoretical Elements of Electrical Engineering27238
Theory and Calculation of Alternating Current Phenomena25321
Theory and Calculation of Transient Electric Phenomena and Oscillations22625
Theory and Calculation of Electric Apparatus21815
General Lectures on Electrical Engineering809
Investigation of Some Trouble in the Generating System of the Commonwealth Edison Co.803
Engineering Mathematics: A Series of Lectures Delivered at Union College495
Elementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients324
Elementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients304
Radiation, Light and Illumination212

Section Hits

Section titled “Section Hits”
SectionSourceHitsWorkbenchLocation
Chapter 14: Constant-Potential Constant-Current Trans FormationTheory and Calculation of Electric Circuits180Workbenchlines 24023-27995
Chapter 12: Reactance Of Induction ApparatusTheory and Calculation of Electric Circuits62Workbenchlines 22634-23465
Chapter 9: Circuits Containing Resistance, Inductive Reactance, And Condensive ReactanceTheory and Calculation of Alternating Current Phenomena59Workbenchlines 4674-6992
Mathematical Appendix 5: Appendix: Synchronous OperationInvestigation of Some Trouble in the Generating System of the Commonwealth Edison Co.58WorkbenchPDF pages 27-68, lines 2165-5013
Chapter 22: Armature Reactions Of AlternatorsTheory and Calculation of Alternating Current Phenomena52Workbenchlines 23971-25134
Chapter 13: Reactance Of Synchronous MachinesTheory and Calculation of Electric Circuits43Workbenchlines 23466-24022
Chapter 15: Constant-Voltage Series OperationTheory and Calculation of Electric Circuits42Workbenchlines 27996-29301
Chapter 4: Induction Motor With Secondary ExcitationTheory and Calculation of Electric Apparatus39Workbenchlines 5555-8554
Chapter 11: Phase ControlTheory and Calculation of Alternating Current Phenomena38Workbenchlines 9767-10717
Chapter 3: Trigonometric SeriesEngineering Mathematics: A Series of Lectures Delivered at Union College34Workbenchlines 6064-15155
Chapter 8: Circuits Containing Resistance, Inductance, And CapacityTheory and Calculation of Alternating Current Phenomena34Workbenchlines 3577-5333
Chapter 16: Reaction MachinesTheory and Calculation of Electric Apparatus33Workbenchlines 19374-20293
Chapter 20: Single-Phase Commutator MotorsTheory and Calculation of Electric Apparatus33Workbenchlines 23906-30087
Chapter 10: Resistance And Reactance Of TransmissionTheory and Calculation of Alternating Current Phenomena32Workbenchlines 6993-9766
Chapter 21: Alternating-Current GeneratorTheory and Calculation of Alternating Current Phenomena32Workbenchlines 22302-23970
Chapter 4: Arc RectificationTheory and Calculation of Transient Electric Phenomena and Oscillations31Workbenchlines 17755-19259
Chapter 25: Distortion Of Wave-Shape And Its CausesTheory and Calculation of Alternating Current Phenomena30Workbenchlines 29375-32539
Chapter 9: High-Frequency ConductorsTheory and Calculation of Transient Electric Phenomena and Oscillations30Workbenchlines 27003-27760
Chapter 8: Shaping Of Waves By Magnetic SaturationTheory and Calculation of Electric Circuits29Workbenchlines 12962-16963
Lecture 5: Long Distance TransmissionGeneral Lectures on Electrical Engineering28Workbenchlines 2562-3132
Chapter 1: IntroductionTheory and Calculation of Alternating Current Phenomena28Workbenchlines 1120-1683
Chapter 8: CapacityTheory and Calculation of Alternating Current Phenomena28Workbenchlines 3872-6370
Chapter 12: Frequency Converter Or General Alternating Current TransformerTheory and Calculation of Electric Apparatus28Workbenchlines 14897-17124
Theory Section 12: Impedance of Transmission LinesTheoretical Elements of Electrical Engineering26Workbenchlines 3761-4464
Chapter 24: Synchronous MotorTheory and Calculation of Alternating Current Phenomena26Workbenchlines 25682-29374
Chapter 21: Reaction MachinesTheory and Calculation of Alternating Current Phenomena26Workbenchlines 20502-21189
Chapter 16: Load Balance Of Polyphase SystemsTheory and Calculation of Electric Circuits26Workbenchlines 29302-30428
Chapter 27: Symbolic Representation Of General Alternating WavesTheory and Calculation of Alternating Current Phenomena25Workbenchlines 33011-34776
Apparatus Section 4: Alternating-current Transformer: RegulationTheoretical Elements of Electrical Engineering24Workbenchlines 17538-18397
Chapter 20: Beactiox MachinesTheory and Calculation of Alternating Current Phenomena24Workbenchlines 22388-23273
Chapter 2: Multiple Squirrel-Cage Induction MotorTheory and Calculation of Electric Apparatus24Workbenchlines 3543-5554
Chapter 18: Oscillating CurrentsTheory and Calculation of Electric Circuits23Workbenchlines 31657-33200
Chapter 9: Divided CircuitTheory and Calculation of Transient Electric Phenomena and Oscillations22Workbenchlines 9228-10474
Chapter 10: Mutual InductanceTheory and Calculation of Transient Electric Phenomena and Oscillations22Workbenchlines 10475-12216
Theory Section 16: Phase Control of Transmission LinesTheoretical Elements of Electrical Engineering21Workbenchlines 6222-6813
Chapter 15: Distributed Capacity, Inductance, Resistance, And LeakageTheory and Calculation of Alternating Current Phenomena20Workbenchlines 15410-16076
Chapter 19: Alternating- Current Motors In GeneralTheory and Calculation of Electric Apparatus20Workbenchlines 21713-23905
Lecture 4: Single-Energy Transients In Alternating Current CircuitsElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients19Workbenchlines 2485-3386
Chapter 12: Effective Resistance And ReactanceTheory and Calculation of Alternating Current Phenomena19Workbenchlines 10718-13483
Chapter 16: Aiitebnatingh-Current OsnebatorTheory and Calculation of Alternating Current Phenomena19Workbenchlines 17025-18828
Chapter 9: Resistance And Reactance Of Transmission LinesTheory and Calculation of Alternating Current Phenomena19Workbenchlines 5334-6956
Chapter 17: Alternating-Current GeneratorTheory and Calculation of Alternating Current Phenomena19Workbenchlines 16362-17596
Chapter 14: Short-Circuit Currents Of AlternatorsTheory and Calculation of Transient Electric Phenomena and Oscillations19Workbenchlines 14549-15353
Lecture 8: Arc Lamps And Arc LightingRadiation, Light and Illumination18Workbenchlines 7141-8510
Theory Section 17: Impedance and AdmittanceTheoretical Elements of Electrical Engineering18Workbenchlines 6814-7380
Chapter 17: The Alternating-Current TransformerTheory and Calculation of Alternating Current Phenomena18Workbenchlines 16521-17716
Chapter 9: Kbsistanci: And Kbactance Of Transmission Iine8Theory and Calculation of Alternating Current Phenomena18Workbenchlines 6371-8268
Chapter 30: Quartbr-Fhase SystemTheory and Calculation of Alternating Current Phenomena18Workbenchlines 27501-29124
Chapter 32: Quarter-Phase SystemTheory and Calculation of Alternating Current Phenomena18Workbenchlines 25904-27405
Lecture 4: Single-Energy Transients In Alternating Current CircuitsElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients17Workbenchlines 2162-2971
Theory Section 7: Inductance in Alternating-current CircuitsTheoretical Elements of Electrical Engineering17Workbenchlines 2250-2717
Apparatus Section 5: Synchronous Machines: Synchronous ReactanceTheoretical Elements of Electrical Engineering17Workbenchlines 9035-9169
Chapter 8: Admittance, Conductance, SusceptanceTheory and Calculation of Alternating Current Phenomena17Workbenchlines 4088-4673
Chapter 6: MagnetismTheory and Calculation of Electric Circuits17Workbenchlines 11051-12221
Chapter 4: Vector RepresentationTheory and Calculation of Alternating Current Phenomena16Workbenchlines 2149-2759
Chapter 24: Symbolic Representation Of General Alternating WavesTheory and Calculation of Alternating Current Phenomena16Workbenchlines 22449-23642
Chapter 7: Resistance, Inductance, And Capacity In Series In Alternating-Current CircuitTheory and Calculation of Transient Electric Phenomena and Oscillations16Workbenchlines 6798-7825
Lecture 6: Higher Harmonics Of The Generator WaveGeneral Lectures on Electrical Engineering15Workbenchlines 3133-3507
Theory Section 10: Hysteresis and Effective ResistanceTheoretical Elements of Electrical Engineering15Workbenchlines 3234-3585
Chapter 10: FTheory and Calculation of Alternating Current Phenomena15Workbenchlines 8269-10499
Chapter 21: Dibtobtiox Of Wavs-Shafe And Its CausesTheory and Calculation of Alternating Current Phenomena15Workbenchlines 23274-24559
Chapter 1: IntroductionTheory and Calculation of Alternating Current Phenomena15Workbenchlines 963-1366
Chapter 10: Effective Resistance And ReactanceTheory and Calculation of Alternating Current Phenomena15Workbenchlines 6957-8383
Chapter 22: Distortion Of Wave-Shape And Its CausesTheory and Calculation of Alternating Current Phenomena15Workbenchlines 21190-21982
Report Record 4: Record of Four TroublesInvestigation of Some Trouble in the Generating System of the Commonwealth Edison Co.14WorkbenchPDF pages 16-27, lines 1139-2164
Apparatus Section 9: Alternating-current Transformer: ReactorsTheoretical Elements of Electrical Engineering14Workbenchlines 18813-18948
Theory Section 14: Rectangular CoordinatesTheoretical Elements of Electrical Engineering14Workbenchlines 5264-5831
Chapter 5: Symbolic MethodTheory and Calculation of Alternating Current Phenomena14Workbenchlines 2760-3266
Chapter 37: Quarter-Phase SystemTheory and Calculation of Alternating Current Phenomena14Workbenchlines 38393-40115
Chapter 1: IntroductionTheory and Calculation of Alternating Current Phenomena14Workbenchlines 1224-1727
Chapter 14: The Alternating-Current TransformerTheory and Calculation of Alternating Current Phenomena14Workbenchlines 11605-12682
Chapter 6: Oscillating Currents,Theory and Calculation of Transient Electric Phenomena and Oscillations14Workbenchlines 5312-6797
Lecture 17: Arc LightingGeneral Lectures on Electrical Engineering13Workbenchlines 9920-12795
Chapter 13: Ths Alternating^Cnrrent TraxsfobmerTheory and Calculation of Alternating Current Phenomena13Workbenchlines 12673-14088
Chapter 5: Symbolic MethodTheory and Calculation of Alternating Current Phenomena13Workbenchlines 2322-2773
Theory Section 8: Power in Alternating-current CircuitsTheoretical Elements of Electrical Engineering12Workbenchlines 2718-2864
Chapter 5: Symbouc MbthodTheory and Calculation of Alternating Current Phenomena12Workbenchlines 2744-3229
Chapter 7: Admittance, Conductance, SusceftanceTheory and Calculation of Alternating Current Phenomena12Workbenchlines 3546-3871
Chapter 7: Admittance, Conductance, SusceptanceTheory and Calculation of Alternating Current Phenomena12Workbenchlines 3132-3576
Chapter 5: Methods Of ApproximationEngineering Mathematics: A Series of Lectures Delivered at Union College11Workbenchlines 15156-16482
Chapter 16: Power, And Double-Frequency Quantities InTheory and Calculation of Alternating Current Phenomena11Workbenchlines 16077-16520
Chapter 14: The Osni!Raij Aiitebnatina-Cubbent TbakbfobmsbTheory and Calculation of Alternating Current Phenomena11Workbenchlines 14089-14918
Chapter 15: The General Alternating-Current Transformer Or Frequency ConverterTheory and Calculation of Alternating Current Phenomena11Workbenchlines 12683-13648
Chapter 5: Single-Phase Induction MotorTheory and Calculation of Electric Apparatus11Workbenchlines 8555-10582
Chapter 23: ReviewTheory and Calculation of Electric Apparatus11Workbenchlines 32138-32819
Chapter 9: Wave Screens. Even HarmonicsTheory and Calculation of Electric Circuits11Workbenchlines 16964-17631
Chapter 6: Transition Points And The Complex CircuitTheory and Calculation of Transient Electric Phenomena and Oscillations11Workbenchlines 32709-33527
Chapter 4: Graphic BefrisxintationTheory and Calculation of Alternating Current Phenomena10Workbenchlines 2122-2743
Chapter 4: Graphic RepresentationTheory and Calculation of Alternating Current Phenomena10Workbenchlines 1743-2321
Chapter 13: Distributed Capacity, Inductance, Resistance, And LeakageTheory and Calculation of Alternating Current Phenomena10Workbenchlines 9741-11604
Theory Section 9: Vector DiagramsTheoretical Elements of Electrical Engineering9Workbenchlines 2865-3233
Theory Section 13: Alternating-current TransformerTheoretical Elements of Electrical Engineering9Workbenchlines 4465-5263
Chapter 14: Dielectric LossesTheory and Calculation of Alternating Current Phenomena9Workbenchlines 14334-15409
Chapter 18: Polyphase Induction MotorsTheory and Calculation of Alternating Current Phenomena9Workbenchlines 17717-20445
Chapter 26: Effects Of Higher HarmonicsTheory and Calculation of Alternating Current Phenomena9Workbenchlines 32540-33010
Chapter 16: Induction MotorTheory and Calculation of Alternating Current Phenomena9Workbenchlines 13649-16361
Chapter 19: Synchronous MotorTheory and Calculation of Alternating Current Phenomena9Workbenchlines 18053-19457
Chapter 8: Low Frequency Surges In High Potential SystemsTheory and Calculation of Transient Electric Phenomena and Oscillations9Workbenchlines 7826-9227
Report Section 2: RecommendationsInvestigation of Some Trouble in the Generating System of the Commonwealth Edison Co.8WorkbenchPDF pages 7-12, lines 145-720
Lecture 2: General DistributionGeneral Lectures on Electrical Engineering8Workbenchlines 566-982
Apparatus Section 17: Synchronous Machines: Short-circuit Currents of AlternatorsTheoretical Elements of Electrical Engineering8Workbenchlines 10190-10429
Chapter 15: Induction MotobTheory and Calculation of Alternating Current Phenomena8Workbenchlines 14919-17024
Chapter 16: IlTheory and Calculation of Alternating Current Phenomena8Workbenchlines 19346-21338
Chapter 11: Foucault Or Eddy CurrentsTheory and Calculation of Alternating Current Phenomena8Workbenchlines 8384-9380
Chapter 2: Long-Distance Transmission LineTheory and Calculation of Transient Electric Phenomena and Oscillations8Workbenchlines 19339-21720
Lecture 14: Alternating Current Railway MotorGeneral Lectures on Electrical Engineering7Workbenchlines 8649-9342
Chapter 35: Balanced Symmetrical Polyphase SystemsTheory and Calculation of Alternating Current Phenomena7Workbenchlines 37453-37957
Chapter 1: Speed Control Of Induction MotorsTheory and Calculation of Electric Apparatus7Workbenchlines 1368-3542
Lecture 8: GenerationGeneral Lectures on Electrical Engineering6Workbenchlines 3781-4217
Apparatus Section 5: Alternating-current Transformer: Short-circuit CurrentTheoretical Elements of Electrical Engineering6Workbenchlines 18398-18460
Apparatus Section 15: Synchronous Machines: Fluctuating Cross Currents in Parallel OperationTheoretical Elements of Electrical Engineering6Workbenchlines 9918-10123
Apparatus Section 6: Synchronous Converters: Reactive Currents and CompoundingTheoretical Elements of Electrical Engineering6Workbenchlines 15476-15585
Chapter 13: Foucault Or Eddy CurrentsTheory and Calculation of Alternating Current Phenomena6Workbenchlines 13484-14333
Chapter 6: Topographic MethodTheory and Calculation of Alternating Current Phenomena6Workbenchlines 3230-3545
Chapter 12: Dibtbisnted Capacity, Inductance, Besistance, AndTheory and Calculation of Alternating Current Phenomena6Workbenchlines 11564-12672
Chapter 19: Commutatob MotobsTheory and Calculation of Alternating Current Phenomena6Workbenchlines 21339-22387
Chapter 20: Commutator MotorsTheory and Calculation of Alternating Current Phenomena6Workbenchlines 19458-20501
Chapter 8: Velocity Of Propagation Of Electric FieldTheory and Calculation of Transient Electric Phenomena and Oscillations6Workbenchlines 26095-27002
Chapter 9: Inductive DischargesTheory and Calculation of Transient Electric Phenomena and Oscillations6Workbenchlines 34897-40349
Lecture 6: Double-Energy TransientsElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients5Workbenchlines 3721-4369
Lecture 8: Traveling WavesElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients5Workbenchlines 5279-6124
Lecture 6: Double-Energy TransientsElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients5Workbenchlines 3287-3955
Lecture 8: Traveling WavesElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients5Workbenchlines 4745-5520
Apparatus Section 5: Induction Machines: Induction BoosterTheoretical Elements of Electrical Engineering5Workbenchlines 21589-21646
Chapter 20: Single-Phase Induction MotorsTheory and Calculation of Alternating Current Phenomena5Workbenchlines 21538-22301
Chapter 11: Fouoault Or Eddy 0Ubbent8Theory and Calculation of Alternating Current Phenomena5Workbenchlines 10500-11563
Apparatus Section 4: Induction Machines: Induction GeneratorTheoretical Elements of Electrical Engineering4Workbenchlines 21158-21588
Apparatus Section 2: Synchronous Machines: Electromotive ForcesTheoretical Elements of Electrical Engineering4Workbenchlines 8658-8740
Apparatus Section 16: Synchronous Machines: Higher Frequency Cross Currents Between Synchronous MachinesTheoretical Elements of Electrical Engineering4Workbenchlines 10124-10189
Chapter 2: Electric Conduction. Gas And VaporTheory and Calculation of Electric Circuits4Workbenchlines 3895-5444
Chapter 4: Inductance And Resistance In Alternating Current CircuitsTheory and Calculation of Transient Electric Phenomena and Oscillations4Workbenchlines 3515-4071
Chapter 5: Resistance, Inductance, And Capacity In Series Condenser Charge And DischargeTheory and Calculation of Transient Electric Phenomena and Oscillations4Workbenchlines 4072-5311
Chapter 40: General System Of CircuitsTheory and Calculation of Transient Electric Phenomena and Oscillations4Workbenchlines 12217-12884
Chapter 3: The Natural Period Of The Transmission LineTheory and Calculation of Transient Electric Phenomena and Oscillations4Workbenchlines 21721-23178
Chapter 7: Distribution Of Alternating-Current Density In ConductorTheory and Calculation of Transient Electric Phenomena and Oscillations4Workbenchlines 24981-26094
Lecture 9: Oscillations Of The Compound CircuitElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients3Workbenchlines 6125-6803
Lecture 9: Oscillations Of The Compound CircuitElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients3Workbenchlines 5521-6088
Lecture 6: LuminescenceRadiation, Light and Illumination3Workbenchlines 5077-6608
Apparatus Section 8: Alternating-current Transformer: AutotransformerTheoretical Elements of Electrical Engineering3Workbenchlines 18666-18812
Apparatus Section 2: Induction Machines: Polyphase Induction MotorTheoretical Elements of Electrical Engineering3Workbenchlines 19166-20427
Theory Section 15: Load Characteristic of Transmission LineTheoretical Elements of Electrical Engineering3Workbenchlines 5832-6221
Apparatus Section 4: Synchronous Machines: Self-inductanceTheoretical Elements of Electrical Engineering3Workbenchlines 8907-9034
Apparatus Section 7: Synchronous Machines: Synchronous MotorTheoretical Elements of Electrical Engineering3Workbenchlines 9292-9398
Chapter 20: RiTheory and Calculation of Alternating Current Phenomena3Workbenchlines 24560-25119
Chapter 23: Effects Of Higher HarmonicsTheory and Calculation of Alternating Current Phenomena3Workbenchlines 21983-22448
Chapter 6: Induction-Motor Regulation And StabilityTheory and Calculation of Electric Apparatus3Workbenchlines 10583-12397
Chapter 4: Distributed Capacity Of High-Potential TransformersTheory and Calculation of Transient Electric Phenomena and Oscillations3Workbenchlines 23179-23585
Chapter 1: General EquationsTheory and Calculation of Transient Electric Phenomena and Oscillations3Workbenchlines 27761-28694
Chapter 2: Potential Series And Exponential FunctionEngineering Mathematics: A Series of Lectures Delivered at Union College2Workbenchlines 3492-6063
Apparatus Introduction 21: IntroductionTheoretical Elements of Electrical Engineering2Workbenchlines 8292-8517
Apparatus Section 8: Synchronous Machines: Characteristic Curves of Synchronous MotorTheoretical Elements of Electrical Engineering2Workbenchlines 9399-9553
Apparatus Section 4: Synchronous Converters: Armature Current and HeatingTheoretical Elements of Electrical Engineering2Workbenchlines 13889-15160
Apparatus Section 12: Synchronous Converters: ConclusionTheoretical Elements of Electrical Engineering2Workbenchlines 15983-16064
Apparatus Section 1: Alternating-current Transformer: GeneralTheoretical Elements of Electrical Engineering2Workbenchlines 16804-16911
Chapter 3: Law Of Electromagnetic InductionTheory and Calculation of Alternating Current Phenomena2Workbenchlines 2012-2148
Chapter 6: Topographic MethodTheory and Calculation of Alternating Current Phenomena2Workbenchlines 3267-3618
Chapter 7: Polar Coordinates And Polar DiagramsTheory and Calculation of Alternating Current Phenomena2Workbenchlines 3619-4087
Chapter 3: Iiaw Of Eucctbo-Maonimc InductionTheory and Calculation of Alternating Current Phenomena2Workbenchlines 1973-2121
Chapter 3: Law Of Electro-Magnetic InductionTheory and Calculation of Alternating Current Phenomena2Workbenchlines 1606-1742
Chapter 14: Phase Conversion And Single-Phase GenerationTheory and Calculation of Electric Apparatus2Workbenchlines 17125-18412
Chapter 15: Synchronous RectifierTheory and Calculation of Electric Apparatus2Workbenchlines 18413-19373
Chapter 18: Surging Of Synchronous MotorsTheory and Calculation of Electric Apparatus2Workbenchlines 20975-21712
Chapter 21: Regulating Pole ConvertersTheory and Calculation of Electric Apparatus2Workbenchlines 30088-31715
Chapter 7: Shaping Of Waves : GeneralTheory and Calculation of Electric Circuits2Workbenchlines 12222-12961
Chapter 1: The General NumberEngineering Mathematics: A Series of Lectures Delivered at Union College1Workbenchlines 915-3491
Chapter 7: Numerical CalculationsEngineering Mathematics: A Series of Lectures Delivered at Union College1Workbenchlines 21989-25587
Lecture 1: General ReviewGeneral Lectures on Electrical Engineering1Workbenchlines 154-565
Lecture 3: Light And Power DistributionGeneral Lectures on Electrical Engineering1Workbenchlines 983-1526
Lecture 9: Hunting Of Synchronous MachinesGeneral Lectures on Electrical Engineering1Workbenchlines 4218-4594
Apparatus Section 3: Induction Machines: Single -phase Induction MotorTheoretical Elements of Electrical Engineering1Workbenchlines 20428-21157
Theory Section 11: Capacity and CondensersTheoretical Elements of Electrical Engineering1Workbenchlines 3586-3760
Apparatus Section 6: Induction Machines: Phase ConverterTheoretical Elements of Electrical Engineering1Workbenchlines 21647-21812
Theory Section 18: Equivalent Sine WavesTheoretical Elements of Electrical Engineering1Workbenchlines 7381-7736
Theory Section 20: NomenclatureTheoretical Elements of Electrical Engineering1Workbenchlines 7991-8291
Apparatus Section 6: Synchronous Machines: Characteristic Curves of Alternating-current GeneratorTheoretical Elements of Electrical Engineering1Workbenchlines 9170-9291
Apparatus Section 11: Synchronous Converters: Double-current GeneratorsTheoretical Elements of Electrical Engineering1Workbenchlines 15893-15982
Apparatus Section 2: Alternating-current Transformer: ExcitationTheoretical Elements of Electrical Engineering1Workbenchlines 16912-17026
Chapter 6: Topographic MethodTheory and Calculation of Alternating Current Phenomena1Workbenchlines 2774-3131
Chapter 8: Synchronizing Induction MotorsTheory and Calculation of Electric Apparatus1Workbenchlines 13956-14465
Chapter 1: Electric Conduction. Soled And LiquidTheory and Calculation of Electric Circuits1Workbenchlines 959-3894
Chapter 10: Instability Of Circuits : The ArcTheory and Calculation of Electric Circuits1Workbenchlines 17632-21381
Chapter 11: Instability Of Circuits: Induction And Syn Chronous MotorsTheory and Calculation of Electric Circuits1Workbenchlines 21382-22633
Chapter 9: High-Frequency Conductors. 403Theory and Calculation of Transient Electric Phenomena and Oscillations1Workbenchlines 1014-1042
Chapter 13: Transient Term Of The Rotating FieldTheory and Calculation of Transient Electric Phenomena and Oscillations1Workbenchlines 13936-14548
Chapter 6: Alternating Magnetic Flux DistributionTheory and Calculation of Transient Electric Phenomena and Oscillations1Workbenchlines 23948-24980
Chapter 3: Standing WavesTheory and Calculation of Transient Electric Phenomena and Oscillations1Workbenchlines 29316-30243
Chapter 4: Traveling WavesTheory and Calculation of Transient Electric Phenomena and Oscillations1Workbenchlines 30244-31450
Chapter 8: Reflection And Refraction At Transition PointTheory and Calculation of Transient Electric Phenomena and Oscillations1Workbenchlines 34203-34896

Representative Source Snippets

Section titled “Representative Source Snippets”
Chapter 14: Constant-Potential Constant-Current Trans Formation - 180 hit(s)

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... stant-voltage supply source, are Huch as U) approach constant-voltage constant-current tran.sfonnation, as in for instance the case in very long transmission line«, or>^;n-<:ircuit- ing may lead to dangeroiLs or even destructive voltage rh¥% 128. With an inductive reactance inserted in series to an alt^^r- 245 246 ELECTRIC CIRCUITS nating-current non-inductive circuit, at constant-supply voltage, the current in this circuit is approximately constant, as long as the resistance of the circuit is small compared with the se ...
Chapter 12: Reactance Of Induction Apparatus - 62 hit(s)

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CHAPTER XII REACTANCE OF INDUCTION APPARATUS 109. An electric current passing through a conductor is ac- companied by a magnetic field surrounding this conductor, and this magnetic field is as integral a part of the phenomenon, as is the energy dissipation by the resistance o ...
Chapter 9: Circuits Containing Resistance, Inductive Reactance, And Condensive Reactance - 59 hit(s)

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CHAPTER IX CIRCUITS CONTAINING RESISTANCE, INDUCTIVE REACTANCE, AND CONDENSIVE REACTANCE 53. Having, in the foregoing, re-established Ohm's law and Kirchhoff 's laws as being also the fundamental laws of alternating- current circuits, when expressed in their complex form, E = ZI, or, 7 = YE, and "EE = 0 in a cl ...
Mathematical Appendix 5: Appendix: Synchronous Operation - 58 hit(s)

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... ngle 2w. That is, the one alternator has the voltage phase (<f> to), the other the voltage phase (0+w). We may assume the alternators as of equal voltage, since a voltage difference superposes on the synchronizing energy current due to the phase difference, a reactive magnetizing current due to the voltage difference without materially changing the energy relations. The EMFs of the two alternators then may be represented by: ei = E cos (0 co) 1 e2 = Ecos (0+co) / (1) and the resultant voltage in the circuit between the alt ...
Chapter 22: Armature Reactions Of Alternators - 52 hit(s)

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... ective self-induction, that is, instead of the counter m.m.f. of the armature reaction, the e.m.f. considered, which would be generated by the magnetic flux, which the arma- ture reaction would produce. That is, both effects are com- bined in an effective reactance, the "synchronous reactance." While armature reaction and self-inductance are similar in ARMATURE REACTIONS OF ALTERNATORS 273 effect, in some cases they differ in their action; the e.m.f. of self-inductance is instantaneous, that is, appears and disa ...
Chapter 13: Reactance Of Synchronous Machines - 43 hit(s)

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CHAPTER XIII REACTANCE OF SYNCHRONOUS MACHINES 119. The synchronous machine — ^alternating-current generator, synchronous motor or synchronous condenser — consists of an armature containing one or more electric circuits traversed by alternating currents and synchronously revo ...
Chapter 15: Constant-Voltage Series Operation - 42 hit(s)

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... he second lamp in circuit. However, in general such arrange- ment is too complicated for use. As practically all such circuits would be alternating-current circuits, and thus alternating currents only need to be considered, the question arises, whether a reactance shunting each lamp would not give the desired effect. Suppose each lamp, of resist- ance, r, is shunted by a reactance, x, which is sufficiently large not to withdraw too much current from the lamp: assuming the cur- rent shunted by x is 20 per cent, of t ...
Chapter 4: Induction Motor With Secondary Excitation - 39 hit(s)

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... characteristic of the induction machine is, that the magnetic field is excited by an alternating current derived from the alter- nating supply voltage, just as in the alternating-current trans- former. As the alternating magnetizing current is a wattless reactive current, the result is, that the alternating-current input into the induction motor is always lagging, the more so, the larger a part of the total current is given by the magnetizing current. To secure good power-factor in an induction motor, the magnetiz ...
Chapter 11: Phase Control - 38 hit(s)

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... ng circuit, causes the voltage, e, at the receiver circuit to decrease with increasing current, /, through the resistance. The decrease of the voltage, e, is greatest if the current, /, is in phase with the voltage, e — less if the current is not in phase. Inductive reactance in series with the receiving circuit, e, at constant impressed e.m.f., eo, causes the voltage, e, to drop less with a unity power-factor current, 7, but far more with a lagging current, and causes the voltage, e, to rise with a leading current. While se ...
Chapter 3: Trigonometric Series - 34 hit(s)

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... starting-point of calculation of the phase of alternating currents. For instance, if a is the phase angle of a vector 98 ENGINEERING MATHEMATICS. quantity, tan a is given as the ratio of the vertical component over the horizontal component, or of the reactive component over the power component. In this case, if m . ,. . tan ex = a sin a = a and cos « = Va^ + h^ cot a = c "d' sin a = d and COS a = or, if Vc^+d^' Vc^+d^' (5c) The secant functions, and versed sine functi ...
Chapter 8: Circuits Containing Resistance, Inductance, And Capacity - 34 hit(s)

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... difference of phase in the receiver circuit. As an instance, in Fig. 37 is shown the E.M.F., E, at the receiver circuit, for E0 = const. = 100 volts, s = 1 ohm ; hence / = E, and — a.) r0 = .2 ohm (Curve I.) b.) r0 = .8 ohm (Curve II.) with values of reactance, x = V^2 — r2, for abscissae, from x = + 1.0 to x = — 1.0 ohm. As shown, / and E are smallest for x = 0, r = 1.0, or for the non-inductive receiver circuit, and largest for x = ± 1.0, r = 0, or for the wattless circuit, in which latter a series resistan ...
Chapter 16: Reaction Machines - 33 hit(s)

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CHAPTER XVI REACTION MACHINES 147. In the usual treatment of synchronous machines and induction machines, the assumption is made that the reactance, x, of the machine is a constant. While this is more or less approximately the case in many alternators, in others, especially in machines of large armature reaction, the reactance, x, is variable, and is different in the different positions of the armatu ...
Chapter 20: Single-Phase Commutator Motors - 33 hit(s)

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... by the counter e.m.f. of rotation, which represents the power output of the motor, and by the resistance, which represents the power loss. In addition thereto, in the alternating-cur rent motor voltage is consumed by the inductance, which is wattless or reactive and therefore causes a lag of current behind the vol- tage, that is, a lowering of the power-factor. While in the direct- current motor good design requires the combination of a strong field and a relatively weak armature, so as to reduce the armature rea ...
Chapter 10: Resistance And Reactance Of Transmission - 32 hit(s)

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CHAPTER X RESISTANCE AND REACTANCE OF TRANSMISSION LINES 65. In alternating-current circuits, voltage is consumed in the feeders of distributing networks, and in the lines of long- distance transmissions, not only by the resistance, but also by the reactance, of the line. The voltage co ...
Chapter 21: Alternating-Current Generator - 32 hit(s)

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... he resultant e.m.f., will take place in this case only when the magnetic densities are so near to saturation that the rise of density at the leading pole corner will be less than the decrease of density at the trailing pole corner. Since the internal self-inductive reactance of the alternator itself causes a certain lag of the current behind the generated e.m.f., this condition of no displacement can exist only in a circuit with external negative reactance, as capacity, etc. ALTERNATING-CURRENT GENERATOR 2G1 If the armatu ...
Chapter 4: Arc Rectification - 31 hit(s)

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... Fig. 61. Constant-potential mercury arc rectifier. current transformer is replaced by a constant-potential trans- former or compensator (auto-transformer) having considerable inductance between the two half coils II and III, as shown in Fig. 61. Two reactive coils are inserted between the outside terminals of the transformer and rectifier tube respectively, for the purpose of producing an overlap between the two rectifying arcs, ca and cb, and thereby the required continuity of the arc stream at c. Or instead ...
Chapter 25: Distortion Of Wave-Shape And Its Causes - 30 hit(s)

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... ircuit, a dis- torting effect will cause higher harmonics of e.m.f. 233. In a conductor revolving with uniform velocity through a uniform and constant magnetic field, a sine wave of e.m.f. is generated. In a circuit with constant resistance and constant reactance, this sine wave of e.m.f. produces a sine wave of current. Thus distortion of the wave-shape or higher har- monics may be due to lack of uniformity of the velocity of the revolving conductor; lack of uniformity or pulsation of the magnetic field; pulsatio ...
Chapter 9: High-Frequency Conductors - 30 hit(s)

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... conductor, X = the conductivity of conductor material, fi. = the permeability of conductor material, / = the frequency, S = the speed of light = 3 X 1010 cm., and (1) a = — — = the wave length constant, o the true ohmic resistance is the ohmic reactance, low frequency value is *o = 2 7r/70 1 2 loge f + ^l 10~9 ohms; (3) or, reduced to common logarithms by dividing by log e, x0 = 2 TT/Z f4.6 log^ + |) 10~9 ohms. (4) \ l>r ** The equivalent depth of penetration of the current into the con- ductor, f ...