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Magnetism Concordance

Magnetism

Section titled “Magnetism”

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

6872 hits

Total text matches across processed Steinmetz sections.

14 sources

Sources containing at least one matched alias.

250 sections

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

Matched Aliases

Section titled “Matched Aliases”

flux, magnetic, magnetism, magnetization, magnetizing, reluctance

Source Distribution

Section titled “Source Distribution”
SourceHitsSections
Theory and Calculation of Electric Circuits101516
Theoretical Elements of Electrical Engineering90172
Theory and Calculation of Electric Apparatus89620
Theory and Calculation of Alternating Current Phenomena82125
Theory and Calculation of Alternating Current Phenomena69622
Theory and Calculation of Transient Electric Phenomena and Oscillations58726
Theory and Calculation of Alternating Current Phenomena57820
Elementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients4029
Elementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients3949
Radiation, Light and Illumination3378
General Lectures on Electrical Engineering11011
Engineering Mathematics: A Series of Lectures Delivered at Union College716
Four Lectures on Relativity and Space433
Investigation of Some Trouble in the Generating System of the Commonwealth Edison Co.213

Section Hits

Section titled “Section Hits”
SectionSourceHitsWorkbenchLocation
Chapter 20: Single-Phase Commutator MotorsTheory and Calculation of Electric Apparatus244Workbenchlines 23906-30087
Chapter 8: Shaping Of Waves By Magnetic SaturationTheory and Calculation of Electric Circuits176Workbenchlines 12962-16963
Chapter 12: Reactance Of Induction ApparatusTheory and Calculation of Electric Circuits172Workbenchlines 22634-23465
Chapter 12: Effective Resistance And ReactanceTheory and Calculation of Alternating Current Phenomena162Workbenchlines 10718-13483
Chapter 12: Magnetic Saturation And Hysteresis In Alternat Ing-Current CircuitsTheory and Calculation of Transient Electric Phenomena and Oscillations134Workbenchlines 12885-13935
Chapter 10: Effective Resistance And ReactanceTheory and Calculation of Alternating Current Phenomena128Workbenchlines 6957-8383
Lecture 10: Light Flux And DistributionRadiation, Light and Illumination124Workbenchlines 9389-12573
Chapter 3: MagnetismTheory and Calculation of Electric Circuits124Workbenchlines 5445-6941
Chapter 6: Alternating Magnetic Flux DistributionTheory and Calculation of Transient Electric Phenomena and Oscillations123Workbenchlines 23948-24980
Chapter 10: FTheory and Calculation of Alternating Current Phenomena119Workbenchlines 8269-10499
Chapter 13: Reactance Of Synchronous MachinesTheory and Calculation of Electric Circuits119Workbenchlines 23466-24022
Chapter 4: MagnetismTheory and Calculation of Electric Circuits112Workbenchlines 6942-9061
Lecture 12: Illumination And Illuminating EngineeringRadiation, Light and Illumination109Workbenchlines 16485-17445
Chapter 25: Distortion Of Wave-Shape And Its CausesTheory and Calculation of Alternating Current Phenomena102Workbenchlines 29375-32539
Lecture 2: The Electric FieldElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients100Workbenchlines 883-1530
Lecture 2: The Electric FieldElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients99Workbenchlines 1003-1658
Chapter 16: Induction MotorTheory and Calculation of Alternating Current Phenomena98Workbenchlines 13649-16361
Theory Section 1: Magnetism and Electric CurrentTheoretical Elements of Electrical Engineering97Workbenchlines 477-909
Chapter 17: Inductor MachinesTheory and Calculation of Electric Apparatus93Workbenchlines 20294-20974
Chapter 21: Regulating Pole ConvertersTheory and Calculation of Electric Apparatus93Workbenchlines 30088-31715
Chapter 5: MagnetismTheory and Calculation of Electric Circuits88Workbenchlines 9062-11050
Apparatus Section 3: Induction Machines: Single -phase Induction MotorTheoretical Elements of Electrical Engineering81Workbenchlines 20428-21157
Chapter 22: Armature Reactions Of AlternatorsTheory and Calculation of Alternating Current Phenomena80Workbenchlines 23971-25134
Lecture 10: Continual And Cumulative OscillationsElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients78Workbenchlines 6804-8485
Chapter 6: MagnetismTheory and Calculation of Electric Circuits78Workbenchlines 11051-12221
Chapter 11: Foucault Or Eddy CurrentsTheory and Calculation of Alternating Current Phenomena75Workbenchlines 8384-9380
Lecture 10: Inductance And Capacity Of Round Parallel ConductorsElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients74Workbenchlines 6089-7274
Chapter 11: Fouoault Or Eddy 0Ubbent8Theory and Calculation of Alternating Current Phenomena74Workbenchlines 10500-11563
Chapter 17: The Alternating-Current TransformerTheory and Calculation of Alternating Current Phenomena72Workbenchlines 16521-17716
Chapter 18: Oscillating CurrentsTheory and Calculation of Electric Circuits69Workbenchlines 31657-33200
Lecture 3: Single-Energy Transients In Continuous Current CircuitsElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients68Workbenchlines 1659-2484
Chapter 13: Foucault Or Eddy CurrentsTheory and Calculation of Alternating Current Phenomena68Workbenchlines 13484-14333
Lecture 3: Single-Energy Transients In Continuous Current CircuitsElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients67Workbenchlines 1531-2161
Chapter 16: Reaction MachinesTheory and Calculation of Electric Apparatus64Workbenchlines 19374-20293
Chapter 3: Inductance And Resistance In Continuous Current CircuitsTheory and Calculation of Transient Electric Phenomena and Oscillations63Workbenchlines 2659-3514
Lecture 4: Single-Energy Transients In Alternating Current CircuitsElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients62Workbenchlines 2485-3386
Chapter 5: Single-Phase Induction MotorTheory and Calculation of Electric Apparatus61Workbenchlines 8555-10582
Theory Section 19: Fields of ForceTheoretical Elements of Electrical Engineering60Workbenchlines 7737-7990
Lecture 4: Single-Energy Transients In Alternating Current CircuitsElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients59Workbenchlines 2162-2971
Chapter 14: The Alternating-Current TransformerTheory and Calculation of Alternating Current Phenomena57Workbenchlines 11605-12682
Chapter 13: Ths Alternating^Cnrrent TraxsfobmerTheory and Calculation of Alternating Current Phenomena56Workbenchlines 12673-14088
Chapter 22: Distortion Of Wave-Shape And Its CausesTheory and Calculation of Alternating Current Phenomena55Workbenchlines 21190-21982
Chapter 10: Mutual InductanceTheory and Calculation of Transient Electric Phenomena and Oscillations55Workbenchlines 10475-12216
Chapter 20: Single-Phase Induction MotorsTheory and Calculation of Alternating Current Phenomena52Workbenchlines 21538-22301
Chapter 1: The Constants Of The Electric CircuitTheory and Calculation of Transient Electric Phenomena and Oscillations48Workbenchlines 1317-1992
Lecture 5: Single-Energy Tra.Nsient Of Ironclad CircuitElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients45Workbenchlines 3387-3720
Lecture 5: Single-Energy Transient Of Ironclad CircuitElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients45Workbenchlines 2972-3286
Lecture 14: Alternating Current Railway MotorGeneral Lectures on Electrical Engineering44Workbenchlines 8649-9342
Chapter 20: Commutator MotorsTheory and Calculation of Alternating Current Phenomena44Workbenchlines 19458-20501
Theory Section 10: Hysteresis and Effective ResistanceTheoretical Elements of Electrical Engineering43Workbenchlines 3234-3585
Chapter 19: Commutatob MotobsTheory and Calculation of Alternating Current Phenomena41Workbenchlines 21339-22387
Chapter 21: Dibtobtiox Of Wavs-Shafe And Its CausesTheory and Calculation of Alternating Current Phenomena41Workbenchlines 23274-24559
Chapter 21: Reaction MachinesTheory and Calculation of Alternating Current Phenomena40Workbenchlines 20502-21189
Chapter 2: Multiple Squirrel-Cage Induction MotorTheory and Calculation of Electric Apparatus40Workbenchlines 3543-5554
Chapter 20: Beactiox MachinesTheory and Calculation of Alternating Current Phenomena39Workbenchlines 22388-23273
Chapter 10: Hysteresis MotorTheory and Calculation of Electric Apparatus38Workbenchlines 14551-14761
Lecture 11: Light Intensity And IlluminationRadiation, Light and Illumination37Workbenchlines 12574-16484
Chapter 4: Induction Motor With Secondary ExcitationTheory and Calculation of Electric Apparatus37Workbenchlines 5555-8554
Chapter 7: Shaping Of Waves : GeneralTheory and Calculation of Electric Circuits36Workbenchlines 12222-12961
Chapter 1: IntroductionTheory and Calculation of Alternating Current Phenomena35Workbenchlines 1120-1683
Chapter 14: Dielectric LossesTheory and Calculation of Alternating Current Phenomena35Workbenchlines 14334-15409
Chapter 19: Alternating- Current Motors In GeneralTheory and Calculation of Electric Apparatus35Workbenchlines 21713-23905
Chapter 21: Alternating-Current GeneratorTheory and Calculation of Alternating Current Phenomena34Workbenchlines 22302-23970
Chapter 7: Distribution Of Alternating-Current Density In ConductorTheory and Calculation of Transient Electric Phenomena and Oscillations34Workbenchlines 24981-26094
Chapter 3: Law Of Electromagnetic InductionTheory and Calculation of Alternating Current Phenomena33Workbenchlines 2012-2148
Chapter 15: The General Alternating-Current Transformer Or Frequency ConverterTheory and Calculation of Alternating Current Phenomena33Workbenchlines 12683-13648
Chapter 17: Alternating-Current GeneratorTheory and Calculation of Alternating Current Phenomena33Workbenchlines 16362-17596
Lecture 13: Physiological Problems Of Illuminating EngineeringRadiation, Light and Illumination32Workbenchlines 17446-17956
Chapter 14: The Osni!Raij Aiitebnatina-Cubbent TbakbfobmsbTheory and Calculation of Alternating Current Phenomena32Workbenchlines 14089-14918
Lecture 6: Double-Energy TransientsElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients31Workbenchlines 3721-4369
Lecture 6: Double-Energy TransientsElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients31Workbenchlines 3287-3955
Chapter 16: Aiitebnatingh-Current OsnebatorTheory and Calculation of Alternating Current Phenomena31Workbenchlines 17025-18828
Chapter 3: Law Of Electro-Magnetic InductionTheory and Calculation of Alternating Current Phenomena31Workbenchlines 1606-1742
Chapter 12: Frequency Converter Or General Alternating Current TransformerTheory and Calculation of Electric Apparatus31Workbenchlines 14897-17124
Chapter 3: Iiaw Of Eucctbo-Maonimc InductionTheory and Calculation of Alternating Current Phenomena30Workbenchlines 1973-2121
Chapter 1: Speed Control Of Induction MotorsTheory and Calculation of Electric Apparatus30Workbenchlines 1368-3542
Theory Section 5: Self-inductance and Mutual InductanceTheoretical Elements of Electrical Engineering29Workbenchlines 1573-1784
Apparatus Section 4: Alternating-current Transformer: RegulationTheoretical Elements of Electrical Engineering29Workbenchlines 17538-18397
Chapter 1: IntroductionTheory and Calculation of Alternating Current Phenomena29Workbenchlines 1224-1727
Chapter 1: IntroductionTheory and Calculation of Alternating Current Phenomena29Workbenchlines 963-1366
Chapter 7: Higher Harmonics In Induction MotorsTheory and Calculation of Electric Apparatus29Workbenchlines 12398-13955
Chapter 22: Unipolar MachinesTheory and Calculation of Electric Apparatus29Workbenchlines 31716-32137
Apparatus Section 1: Induction Machines: GeneralTheoretical Elements of Electrical Engineering27Workbenchlines 18949-19165
Chapter 23: ReviewTheory and Calculation of Electric Apparatus27Workbenchlines 32138-32819
Chapter 9: Inductive DischargesTheory and Calculation of Transient Electric Phenomena and Oscillations27Workbenchlines 34897-40349
Chapter 14: Short-Circuit Currents Of AlternatorsTheory and Calculation of Transient Electric Phenomena and Oscillations26Workbenchlines 14549-15353
Lecture 6: Higher Harmonics Of The Generator WaveGeneral Lectures on Electrical Engineering25Workbenchlines 3133-3507
Chapter 4: Vector RepresentationTheory and Calculation of Alternating Current Phenomena25Workbenchlines 2149-2759
Apparatus Subsection 63: Direct-current Commutating Machines: C. Commutating Machines 197Theoretical Elements of Electrical Engineering24Workbenchlines 11795-11863
Chapter 18: Polyphase Induction MotorsTheory and Calculation of Alternating Current Phenomena23Workbenchlines 17717-20445
Theory Section 3: Generation of E.m.f.Theoretical Elements of Electrical Engineering22Workbenchlines 1033-1243
Chapter 26: Effects Of Higher HarmonicsTheory and Calculation of Alternating Current Phenomena22Workbenchlines 32540-33010
Chapter 20: RiTheory and Calculation of Alternating Current Phenomena22Workbenchlines 24560-25119
Chapter 23: Effects Of Higher HarmonicsTheory and Calculation of Alternating Current Phenomena22Workbenchlines 21983-22448
Chapter 3: Trigonometric SeriesEngineering Mathematics: A Series of Lectures Delivered at Union College21Workbenchlines 6064-15155
Lecture 9: Measurement Of Light And RadiationRadiation, Light and Illumination21Workbenchlines 8511-9388
Chapter 15: Induction MotobTheory and Calculation of Alternating Current Phenomena21Workbenchlines 14919-17024
Chapter 6: Empirical CurvesEngineering Mathematics: A Series of Lectures Delivered at Union College20Workbenchlines 16483-21988
Lecture 2: Conclusions From The Relativity TheoryFour Lectures on Relativity and Space20Workbenchlines 736-2388
Apparatus Section 2: Induction Machines: Polyphase Induction MotorTheoretical Elements of Electrical Engineering20Workbenchlines 19166-20427
Apparatus Subsection 79: Direct-current Commutating Machines: C. Commutating Machines 219Theoretical Elements of Electrical Engineering20Workbenchlines 13019-13119
Apparatus Section 3: Direct-current Commutating Machines: Generated E.m.fs.Theoretical Elements of Electrical Engineering19Workbenchlines 10778-10835
Theory Section 2: Magnetism and E.m.f.Theoretical Elements of Electrical Engineering18Workbenchlines 910-1032
Theory Section 13: Alternating-current TransformerTheoretical Elements of Electrical Engineering18Workbenchlines 4465-5263
Apparatus Section 17: Synchronous Machines: Short-circuit Currents of AlternatorsTheoretical Elements of Electrical Engineering18Workbenchlines 10190-10429
Apparatus Subsection 57: Direct-current Commutating Machines: C. Commutating MachinesTheoretical Elements of Electrical Engineering18Workbenchlines 11401-11540
Mathematical Appendix 5: Appendix: Synchronous OperationInvestigation of Some Trouble in the Generating System of the Commonwealth Edison Co.17WorkbenchPDF pages 27-68, lines 2165-5013
Chapter 2: Potential Series And Exponential FunctionEngineering Mathematics: A Series of Lectures Delivered at Union College17Workbenchlines 3492-6063
Lecture 3: Gravitation And The Gravitational FleldFour Lectures on Relativity and Space17Workbenchlines 2389-3594
Theory Section 20: NomenclatureTheoretical Elements of Electrical Engineering17Workbenchlines 7991-8291
Chapter 37: Quarter-Phase SystemTheory and Calculation of Alternating Current Phenomena17Workbenchlines 38393-40115
Apparatus Subsection 53: Direct-current Commutating Machines: C. Commutating Machines 185Theoretical Elements of Electrical Engineering16Workbenchlines 11132-11213
Chapter 35: Balanced Symmetrical Polyphase SystemsTheory and Calculation of Alternating Current Phenomena16Workbenchlines 37453-37957
Chapter 14: Phase Conversion And Single-Phase GenerationTheory and Calculation of Electric Apparatus16Workbenchlines 17125-18412
Chapter 9: Wave Screens. Even HarmonicsTheory and Calculation of Electric Circuits16Workbenchlines 16964-17631
Chapter 8: Velocity Of Propagation Of Electric FieldTheory and Calculation of Transient Electric Phenomena and Oscillations16Workbenchlines 26095-27002
Apparatus Section 7: Alternating-current Transformer: Types of TransformersTheoretical Elements of Electrical Engineering15Workbenchlines 18521-18665
Theory Section 18: Equivalent Sine WavesTheoretical Elements of Electrical Engineering15Workbenchlines 7381-7736
Apparatus Section 2: Synchronous Machines: Electromotive ForcesTheoretical Elements of Electrical Engineering15Workbenchlines 8658-8740
Apparatus Subsection 54: Direct-current Commutating Machines: C. Commutating Machines 187Theoretical Elements of Electrical Engineering15Workbenchlines 11214-11300
Chapter 4: Graphic BefrisxintationTheory and Calculation of Alternating Current Phenomena15Workbenchlines 2122-2743
Chapter 4: Graphic RepresentationTheory and Calculation of Alternating Current Phenomena15Workbenchlines 1743-2321
Chapter 18: Surging Of Synchronous MotorsTheory and Calculation of Electric Apparatus15Workbenchlines 20975-21712
Lecture 9: Hunting Of Synchronous MachinesGeneral Lectures on Electrical Engineering14Workbenchlines 4218-4594
Theory Section 4: Power and Effective ValuesTheoretical Elements of Electrical Engineering14Workbenchlines 1244-1572
Apparatus Section 9: Synchronous Machines: Magnetic Characteristic or Saturation CurveTheoretical Elements of Electrical Engineering14Workbenchlines 9554-9650
Chapter 2: IntroductionTheory and Calculation of Transient Electric Phenomena and Oscillations13Workbenchlines 1993-2658
Lecture 1: Nature And Origin Of TransientsElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients12Workbenchlines 557-1002
Lecture 1: Nature And Origin Of TransientsElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients12Workbenchlines 460-882
Apparatus Section 9: Alternating-current Transformer: ReactorsTheoretical Elements of Electrical Engineering12Workbenchlines 18813-18948
Apparatus Section 1: Synchronous Machines: GeneralTheoretical Elements of Electrical Engineering12Workbenchlines 8518-8657
Apparatus Subsection 48: Direct-current Commutating Machines: C. Commutating MachinesTheoretical Elements of Electrical Engineering12Workbenchlines 10845-10940
Apparatus Section 7: Synchronous Converters: Variable Ratio Converters (“split Pole” Converters)Theoretical Elements of Electrical Engineering12Workbenchlines 15586-15734
Lecture 8: Arc Lamps And Arc LightingRadiation, Light and Illumination11Workbenchlines 7141-8510
Apparatus Subsection 49: Direct-current Commutating Machines: C. Commutating Machines 181Theoretical Elements of Electrical Engineering11Workbenchlines 10941-11024
Chapter 14: Constant-Potential Constant-Current Trans FormationTheory and Calculation of Electric Circuits11Workbenchlines 24023-27995
Apparatus Subsection 51: Direct-current Commutating Machines: C. Commutating Machines 183Theoretical Elements of Electrical Engineering10Workbenchlines 11047-11125
Theory Section 7: Inductance in Alternating-current CircuitsTheoretical Elements of Electrical Engineering9Workbenchlines 2250-2717
Apparatus Introduction 21: IntroductionTheoretical Elements of Electrical Engineering9Workbenchlines 8292-8517
Apparatus Section 12: Synchronous Machines: Starting of Synchronous MotorsTheoretical Elements of Electrical Engineering9Workbenchlines 9749-9820
Chapter 24: Symmetbicaii Polyphase StstemsTheory and Calculation of Alternating Current Phenomena9Workbenchlines 25271-25604
Chapter 26: Symmetrical Polyphase SystemsTheory and Calculation of Alternating Current Phenomena9Workbenchlines 23781-24053
Apparatus Section 3: Synchronous Machines: Armature ReactionTheoretical Elements of Electrical Engineering8Workbenchlines 8741-8906
Apparatus Subsection 55: Direct-current Commutating Machines: C. Commutating Machines 189Theoretical Elements of Electrical Engineering8Workbenchlines 11301-11386
Apparatus Subsection 66: Direct-current Commutating Machines: C. Commutating Machines 201Theoretical Elements of Electrical Engineering8Workbenchlines 11981-12083
Apparatus Section 5: Synchronous Converters: Armature ReactionTheoretical Elements of Electrical Engineering8Workbenchlines 15161-15475
Apparatus Section 2: Alternating-current Transformer: ExcitationTheoretical Elements of Electrical Engineering8Workbenchlines 16912-17026
Chapter 29: Symmetrical Polyphase SystemsTheory and Calculation of Alternating Current Phenomena8Workbenchlines 34929-35255
Chapter 9: High-Frequency ConductorsTheory and Calculation of Transient Electric Phenomena and Oscillations8Workbenchlines 27003-27760
Chapter 7: Numerical CalculationsEngineering Mathematics: A Series of Lectures Delivered at Union College7Workbenchlines 21989-25587
Lecture 13: Electric Railway: Motor CharacteristicsGeneral Lectures on Electrical Engineering7Workbenchlines 7124-8648
Apparatus Section 4: Induction Machines: Induction GeneratorTheoretical Elements of Electrical Engineering7Workbenchlines 21158-21588
Apparatus Section 6: Induction Machines: Phase ConverterTheoretical Elements of Electrical Engineering7Workbenchlines 21647-21812
Apparatus Section 13: Direct-current Commutating Machines: CommutationTheoretical Elements of Electrical Engineering7Workbenchlines 11905-11980
Chapter 11: Phase ControlTheory and Calculation of Alternating Current Phenomena7Workbenchlines 9767-10717
Chapter 16: Power, And Double-Frequency Quantities InTheory and Calculation of Alternating Current Phenomena7Workbenchlines 16077-16520
Chapter 12: Power, And Double Frequency Quantities In GeneralTheory and Calculation of Alternating Current Phenomena7Workbenchlines 9381-9740
Chapter 6: Alternating Magnetic Flux Distribution. 355Theory and Calculation of Transient Electric Phenomena and Oscillations7Workbenchlines 904-937
Chapter 13: Transient Term Of The Rotating FieldTheory and Calculation of Transient Electric Phenomena and Oscillations7Workbenchlines 13936-14548
Lecture 4: The Characteristics Of Space A. The Geometry Of The Gravitational FieldFour Lectures on Relativity and Space6Workbenchlines 3595-6820
Lecture 8: GenerationGeneral Lectures on Electrical Engineering6Workbenchlines 3781-4217
Lecture 17: Arc LightingGeneral Lectures on Electrical Engineering6Workbenchlines 9920-12795
Apparatus Section 6: Synchronous Converters: Reactive Currents and CompoundingTheoretical Elements of Electrical Engineering6Workbenchlines 15476-15585
Chapter 24: Synchronous MotorTheory and Calculation of Alternating Current Phenomena6Workbenchlines 25682-29374
Chapter 16: IlTheory and Calculation of Alternating Current Phenomena6Workbenchlines 19346-21338
Chapter 19: Synchronous MotorTheory and Calculation of Alternating Current Phenomena6Workbenchlines 18053-19457
Chapter 24: ConclusionTheory and Calculation of Electric Apparatus6Workbenchlines 32820-33531
Chapter 11: Instability Of Circuits: Induction And Syn Chronous MotorsTheory and Calculation of Electric Circuits6Workbenchlines 21382-22633
Apparatus Section 8: Induction Machines: Concatenation of Induction MotorsTheoretical Elements of Electrical Engineering5Workbenchlines 21923-22191
Apparatus Section 5: Direct-current Commutating Machines: Effect of Saturation on Magnetic DistributionTheoretical Elements of Electrical Engineering5Workbenchlines 11025-11046
Apparatus Section 8: Direct-current Commutating Machines: Armature ReactionTheoretical Elements of Electrical Engineering5Workbenchlines 11616-11694
Apparatus Subsection 70: Direct-current Commutating Machines: C. Commutating MachinesTheoretical Elements of Electrical Engineering5Workbenchlines 12319-12398
Chapter 19: Induction GeneratorsTheory and Calculation of Alternating Current Phenomena5Workbenchlines 20446-21537
Chapter 32: Transformation Of Polyphase SystemsTheory and Calculation of Alternating Current Phenomena5Workbenchlines 36062-36514
Chapter 27: Tbansfobmation Of Polyphase SystemsTheory and Calculation of Alternating Current Phenomena5Workbenchlines 26428-26583
Chapter 29: Transformation Of Polyphase SystemsTheory and Calculation of Alternating Current Phenomena5Workbenchlines 24805-25135
Lecture 8: Traveling WavesElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients4Workbenchlines 5279-6124
Lecture 8: Traveling WavesElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients4Workbenchlines 4745-5520
Chapter 5: Methods Of ApproximationEngineering Mathematics: A Series of Lectures Delivered at Union College4Workbenchlines 15156-16482
Theory Section 6: Self-inductance of Continuous-current CircuitsTheoretical Elements of Electrical Engineering4Workbenchlines 1785-2249
Apparatus Section 4: Direct-current Commutating Machines: Distribution of Magnetic FluxTheoretical Elements of Electrical Engineering4Workbenchlines 10836-10844
Apparatus Section 7: Direct-current Commutating Machines: Effect of Slots on Magnetic FluxTheoretical Elements of Electrical Engineering4Workbenchlines 11387-11400
Apparatus Subsection 94: Synchronous Converters: Thbee-wire ConverterTheoretical Elements of Electrical Engineering4Workbenchlines 16727-16803
Chapter 15: Synchronous RectifierTheory and Calculation of Electric Apparatus4Workbenchlines 18413-19373
Chapter 3: Mechanical RectificationTheory and Calculation of Transient Electric Phenomena and Oscillations4Workbenchlines 15963-17754
Lecture 7: Line OscillationsElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients3Workbenchlines 4370-5278
Lecture 7: High Frequency Oscillations And SurgesGeneral Lectures on Electrical Engineering3Workbenchlines 3508-3780
Apparatus Section 9: Direct-current Commutating Machines: Saturation CurvesTheoretical Elements of Electrical Engineering3Workbenchlines 11695-11710
Apparatus Section 1: Alternating-current Transformer: GeneralTheoretical Elements of Electrical Engineering3Workbenchlines 16804-16911
Chapter 2: Instantaneous Values And Integral ValuesTheory and Calculation of Alternating Current Phenomena3Workbenchlines 1684-2011
Chapter 30: Quartbr-Fhase SystemTheory and Calculation of Alternating Current Phenomena3Workbenchlines 27501-29124
Chapter 32: Quarter-Phase SystemTheory and Calculation of Alternating Current Phenomena3Workbenchlines 25904-27405
Chapter 6: Induction-Motor Regulation And StabilityTheory and Calculation of Electric Apparatus3Workbenchlines 10583-12397
Chapter 15: Constant-Voltage Series OperationTheory and Calculation of Electric Circuits3Workbenchlines 27996-29301
Chapter 1: IntroductionTheory and Calculation of Transient Electric Phenomena and Oscillations3Workbenchlines 15354-15625
Chapter 1: IntroductionTheory and Calculation of Transient Electric Phenomena and Oscillations3Workbenchlines 19260-19338
Chapter 7: Power And Energy Of The Complex CircuitTheory and Calculation of Transient Electric Phenomena and Oscillations3Workbenchlines 33528-34202
Report Section 3: Discussion of RecommendationsInvestigation of Some Trouble in the Generating System of the Commonwealth Edison Co.2WorkbenchPDF pages 12-16, lines 721-1138
Report Record 4: Record of Four TroublesInvestigation of Some Trouble in the Generating System of the Commonwealth Edison Co.2WorkbenchPDF pages 16-27, lines 1139-2164
Lecture 7: Line OscillationsElementary Lectures on Electric Discharges, Waves and Impulses, and Other Transients2Workbenchlines 3956-4744
Chapter 1: The General NumberEngineering Mathematics: A Series of Lectures Delivered at Union College2Workbenchlines 915-3491
Lecture 11: Lightning ProtectionGeneral Lectures on Electrical Engineering2Workbenchlines 4931-5294
Lecture 2: Relation Of Bodies To RadiationRadiation, Light and Illumination2Workbenchlines 1549-2365
Apparatus Section 8: Alternating-current Transformer: AutotransformerTheoretical Elements of Electrical Engineering2Workbenchlines 18666-18812
Apparatus Section 7: Induction Machines: Frequency Converter or General Alternating-current TransformerTheoretical Elements of Electrical Engineering2Workbenchlines 21813-21922
Apparatus Section 4: Synchronous Machines: Self-inductanceTheoretical Elements of Electrical Engineering2Workbenchlines 8907-9034
Apparatus Section 5: Synchronous Machines: Synchronous ReactanceTheoretical Elements of Electrical Engineering2Workbenchlines 9035-9169
Apparatus Section 15: Synchronous Machines: Fluctuating Cross Currents in Parallel OperationTheoretical Elements of Electrical Engineering2Workbenchlines 9918-10123
Apparatus Subsection 40: Direct-current Commutating Machines: C. Commutating MachinesTheoretical Elements of Electrical Engineering2Workbenchlines 10475-10519
Apparatus Subsection 44: Direct-current Commutating Machines: C. Commutating Machines 175Theoretical Elements of Electrical Engineering2Workbenchlines 10685-10736
Apparatus Section 12: Direct-current Commutating Machines: Efficiency and LossesTheoretical Elements of Electrical Engineering2Workbenchlines 11864-11904
Apparatus Subsection 72: Direct-current Commutating Machines: GeneratorsTheoretical Elements of Electrical Engineering2Workbenchlines 12400-12491
Apparatus Subsection 77: Direct-current Commutating Machines: C. Commutating MachinesTheoretical Elements of Electrical Engineering2Workbenchlines 12929-13007
Apparatus Subsection 80: Direct-current Commutating Machines: C. Commutating Machines 221Theoretical Elements of Electrical Engineering2Workbenchlines 13120-13188
Apparatus Section 13: Synchronous Converters: Direct-current ConverterTheoretical Elements of Electrical Engineering2Workbenchlines 16065-16540
Chapter 27: Symbolic Representation Of General Alternating WavesTheory and Calculation of Alternating Current Phenomena2Workbenchlines 33011-34776
Chapter 2: Chapter IITheory and Calculation of Alternating Current Phenomena2Workbenchlines 1728-1972
Chapter 5: Symbouc MbthodTheory and Calculation of Alternating Current Phenomena2Workbenchlines 2744-3229
Chapter 2: Instantaneous Values And Integral ValuesTheory and Calculation of Alternating Current Phenomena2Workbenchlines 1367-1605
Chapter 5: Symbolic MethodTheory and Calculation of Alternating Current Phenomena2Workbenchlines 2322-2773
Chapter 1: Electric Conduction. Soled And LiquidTheory and Calculation of Electric Circuits2Workbenchlines 959-3894
Chapter 16: Load Balance Of Polyphase SystemsTheory and Calculation of Electric Circuits2Workbenchlines 29302-30428
Chapter 8: Velocity Of Propagation Op Electric Field. 387Theory and Calculation of Transient Electric Phenomena and Oscillations2Workbenchlines 972-1013
Chapter 6: Oscillating Currents,Theory and Calculation of Transient Electric Phenomena and Oscillations2Workbenchlines 5312-6797
Chapter 7: Resistance, Inductance, And Capacity In Series In Alternating-Current CircuitTheory and Calculation of Transient Electric Phenomena and Oscillations2Workbenchlines 6798-7825
Chapter 2: Long-Distance Transmission LineTheory and Calculation of Transient Electric Phenomena and Oscillations2Workbenchlines 19339-21720
Lecture 5: Long Distance TransmissionGeneral Lectures on Electrical Engineering1Workbenchlines 2562-3132
Lecture 10: Regulation And ControlGeneral Lectures on Electrical Engineering1Workbenchlines 4595-4930
Lecture 16: The Incandescent LampGeneral Lectures on Electrical Engineering1Workbenchlines 9687-9919
Lecture 1: Nature And Different Forms Of RadiationRadiation, Light and Illumination1Workbenchlines 608-1548
Theory Section 14: Rectangular CoordinatesTheoretical Elements of Electrical Engineering1Workbenchlines 5264-5831
Theory Section 16: Phase Control of Transmission LinesTheoretical Elements of Electrical Engineering1Workbenchlines 6222-6813
Theory Section 17: Impedance and AdmittanceTheoretical Elements of Electrical Engineering1Workbenchlines 6814-7380
Apparatus Section 7: Synchronous Machines: Synchronous MotorTheoretical Elements of Electrical Engineering1Workbenchlines 9292-9398
Apparatus Section 10: Synchronous Machines: Efficiency and LossesTheoretical Elements of Electrical Engineering1Workbenchlines 9651-9718
Apparatus Section 13: Synchronous Machines: Parallel OperationTheoretical Elements of Electrical Engineering1Workbenchlines 9821-9878
Apparatus Subsection 67: Direct-current Commutating Machines: C. Commutating MachinesTheoretical Elements of Electrical Engineering1Workbenchlines 12084-12199
Apparatus Subsection 74: Direct-current Commutating Machines: C. Commutating MachinesTheoretical Elements of Electrical Engineering1Workbenchlines 12660-12763
Chapter 15: Distributed Capacity, Inductance, Resistance, And LeakageTheory and Calculation of Alternating Current Phenomena1Workbenchlines 15410-16076
Chapter 33: Efficiency Of SystemsTheory and Calculation of Alternating Current Phenomena1Workbenchlines 36515-37127
Chapter 12: Dibtbisnted Capacity, Inductance, Besistance, AndTheory and Calculation of Alternating Current Phenomena1Workbenchlines 11564-12672
Chapter 13: Distributed Capacity, Inductance, Resistance, And LeakageTheory and Calculation of Alternating Current Phenomena1Workbenchlines 9741-11604
Chapter 24: Symbolic Representation Of General Alternating WavesTheory and Calculation of Alternating Current Phenomena1Workbenchlines 22449-23642
Chapter 9: Synchronous Induction MotorTheory and Calculation of Electric Apparatus1Workbenchlines 14466-14550
Chapter 10: Instability Of Circuits : The ArcTheory and Calculation of Electric Circuits1Workbenchlines 17632-21381
Chapter 2: Long Distance Transmission Line. 279Theory and Calculation of Transient Electric Phenomena and Oscillations1Workbenchlines 755-835
Chapter 7: Power And Energy Of The Complex Circuit. 513Theory and Calculation of Transient Electric Phenomena and Oscillations1Workbenchlines 1228-1261
Chapter 4: Inductance And Resistance In Alternating Current CircuitsTheory and Calculation of Transient Electric Phenomena and Oscillations1Workbenchlines 3515-4071
Chapter 40: General System Of CircuitsTheory and Calculation of Transient Electric Phenomena and Oscillations1Workbenchlines 12217-12884
Chapter 1: General EquationsTheory and Calculation of Transient Electric Phenomena and Oscillations1Workbenchlines 27761-28694

Representative Source Snippets

Section titled “Representative Source Snippets”
Chapter 20: Single-Phase Commutator Motors - 244 hit(s)

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... uency. The direction of rotation of a direct-current motor, whether shunt or series motor, remains the same at a reversal of the im- pressed e.m.f., as in this case the current in the armature circuit and the current in the field circuit and so the field magnetism both reverse. Theoretically, a direct-current motor therefore could be operated on an alternating impressed e.m.f. provided that the magnetic circuit of the motor is laminated, so as to fol- low the alternations of magnetism without serious loss of power, ...
Chapter 8: Shaping Of Waves By Magnetic Saturation - 176 hit(s)

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CHAPTER VIII SHAPING OF WAVES BY MAGNETIC SATURATION 66. The wave shapes of current or volt^e produced by a closed magnetic circuit at moderate magnetic densities, such as are com- monly used in transformers and other induction apparatus, have 10 / ^ ^ 8- in.4 /' / -' ...
Chapter 12: Reactance Of Induction Apparatus - 172 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 of the conductor. It is represented by the inductance, L, of the conductor, or the number of magnetic interli ...
Chapter 12: Effective Resistance And Reactance - 162 hit(s)

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... iculties met in dealing analytically with alternating-current circuits containing iron. 90. The foremost sources of energy loss in alternating-current circuits, outside of the true ohmic resistance loss, are as follows : 1. Molecular friction, as, (a) Magnetic hysteresis; (6) Dielectric hysteresis. 2. Primary electric currents, as, (a) Leakage or escape of current through the insulation, brush discharge, corona. (6) Eddy currents in the conductor or unequal current distribution. EFFECTIVE RESISTANCE AN ...
Chapter 12: Magnetic Saturation And Hysteresis In Alternat Ing-Current Circuits - 134 hit(s)

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CHAPTER XII. MAGNETIC SATURATION AND HYSTERESIS IN ALTERNAT- ING-CURRENT CIRCUITS. 99. If an alternating e.m.f. is impressed upon a circuit con- taining resistance and inductance, the current and thereby the magnetic flux produced by the current immediately assume their fina ...
Chapter 10: Effective Resistance And Reactance - 128 hit(s)

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... lties met in dealing analytically with alternating-current circuits containing iron. 73. The foremost sources of energy loss in alternating- current circuits, outside of the true ohmic resistance loss, are as follows : 1.) Molecular friction, as, a.) Magnetic hysteresis ; b.) Dielectric hysteresis. 106 .ALTERNATING-CURRENT PHENOMENA. 2.) Primary electric currents, as, a.} Leakage or escape of current through the insu- lation, brush discharge ; b.) Eddy currents in the conductor or unequal current distrib ...
Lecture 10: Light Flux And Distribution - 124 hit(s)

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LECTURE X. LIGHT FLUX AND DISTRIBUTION. 86. The light flux of an illuminant is its total radiation power, in physiological measure. It therefore is the useful output of the illuminant, and the efficiency of an illuminant thus is the ratio of the total light flux divided by th ...
Chapter 3: Magnetism - 124 hit(s)

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CHAPTER III MAGNETISM Reluctivity 29. Considering magnetism as the phenomena of a "magnetic circuit," the foremost differences between the characteristics of the magnetic circuit and the electric circuit are: (a) The maintenance of an electric circuit requires the ex- pen ...
Chapter 6: Alternating Magnetic Flux Distribution - 123 hit(s)

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CHAPTER VI. ALTERNATING MAGNETIC FLUX DISTRIBUTION. 48. As carrier of magnetic flux iron is used, as far as possible, since it has the highest permeability or magnetic conductivity. If the magnetic flux is alternating or otherwise changing rapidly, an e.m.f. is generated by the change o ...
Chapter 10: F - 119 hit(s)

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... lties met in dealing analytically with alternating-current circuits containing iron. 73. The foremost sources of energy loss in alternating- current circuits, outside of the true ohmic resistance loss, are as follows : 1.) Molecular friction, as, a.) Magnetic hysteresis; b) Dielectric hysteresis. 106 ALTERNATING-CURRENT PHENOMENA. [§ 74 2.) Primary electric currents, as, a.) Leakage or escape of current through the in- sulation, brush discharge ; b.) Eddy currents in the conductor or unequal current dis ...
Chapter 13: Reactance Of Synchronous Machines - 119 hit(s)

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... 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 revolving relative to a unidirectional magnetic field, excited by direct current. The armature circuit, like every electric circuit, has a resistance, r, in which power is being dissipated by the current, /, and an in- ductance, L, or reactance, a; = 2 irfL^ which represents the mag- netic flux produce ...
Chapter 4: Magnetism - 112 hit(s)

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CHAPTER IV MAGNETISM Hysteresis 36. Unlike the electric current, which requires power for its maintenance, the maintenance of a magnetic flux does not require energy expenditure (the energy consumed by the magnetizing current in the ohmic resistance of the magnetizing wind ...
Lecture 12: Illumination And Illuminating Engineering - 109 hit(s)

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... NEERING. 110. Artificial light is used for the purpose of seeing and distinguishing objects clearly and comfortably when the day- light fails. The problem of artificial lighting thus comprises con- sideration of the source of light or the illuminant; the flux of light issuing from it; the distribution of the light flux in space, that is, the light flux density in space and more particularly at the illuminated objects; the illumination, that is, the light flux density reflected from the illuminated objects, and ...
Chapter 25: Distortion Of Wave-Shape And Its Causes - 102 hit(s)

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... ffect will cause distortion of the current wave, while with a sine wave of current passing through the circuit, 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 ...
Lecture 2: The Electric Field - 100 hit(s)

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... circuit L. While power flows through the conductors A, power is con- sumed in these conductors by conversion into heat, repre- sented by i?r. This, however, Fig. 7. is not all, but in the space surrounding the conductor cer- tain phenomena occur: magnetic and electrostatic forces appear. Fig. 8. — Electric Field of Conductor. The conductor is surrounded by a magnetic field, or a magnetic flux, which is measured by the number of lines of magnetic force <J>. With a single conductor, the lines of magnetic ...
Lecture 2: The Electric Field - 99 hit(s)

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... ircuit M. While power flows through the conductors A, power is con- sumed in these conductors by JV[ conversion into heat, repre- sented by ^2r. This, however, Fig. 7. is not all, but in the space surrounding the conductor cer- tain phenomena occur: magnetic and electrostatic forces appear. Fig. 8. — Electric Field of Conductor. The conductor is surrounded by a magnetic field, or a magnetic flux, which is measured by the number of lines of magnetic force $. With a single conductor, the lines of magnetic f ...
Chapter 16: Induction Motor - 98 hit(s)

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... d, but not the transfer of electrical energy, and thus the secondary circuits closed upon themselves. Transformer and induction motor thus are the two limiting cases of the general alternating- current transformer. Hence the induction motor consists of a magnetic circuit interlinked with two electric circuits or sets of circuits, the primary and the secondary circuit, which are movable with regard to each other. In general a num- ber of primary and a number of secondary circuits are used, angularly displaced aroun ...
Theory Section 1: Magnetism and Electric Current - 97 hit(s)

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1. MAGNETISM AND ELECTRIC CURRENT 1. A magnet pole attracting (or repelling) another magnet pole of equal strength at unit distance with unit force1 is called a unit magnet pole. The space surrounding a magnet pole is called a magne ...