Apparatus Section 2: Synchronous Machines: Electromotive Forces
Research workbench, not a finished commentary page.
This page is generated from processed source text and candidate catalogs. It exists to help researchers decide what to verify, promote, and deeply decode next.
Source Metadata
Section titled “Source Metadata”| Field | Value |
|---|---|
| Source | Theoretical Elements of Electrical Engineering |
| Year | 1915 |
| Section ID | theoretical-elements-electrical-engineering-section-23 |
| Location | lines 8658-8740 |
| Status | candidate |
| Word Count | 580 |
| Equation Candidates In Section | 0 |
| Figure Candidates In Section | 0 |
| Quote Candidates In Section | 0 |
Opening Source Excerpt
Section titled “Opening Source Excerpt”II. Electromotive Forces 6. In a synchronous machine we have to distinguish between terminal voltage E, real generated e.m.f. #1, virtual generated e.m.f. EZ, and nominal generated e.m.f. EQ. The real generated e.m.f. EI is the e.m.f. generated in the alter- nator armature turns by the resultant magnetic flux, or mag- netic flux interlinked with them, that is, by the magnetic flux passing through the armature core. It is equal to the terminal voltage plus the e.m.f. consumed by the resistance of the arma- ture, these two e.m.fs. being taken in their proper phase relation; thus Ei = E + Ir, where / = current in armature, r = effective resistance. The virtual generated e.m.f. E2 is the e.m.f. which would be generated by the flux produced by the field poles, or flux corre- spondingSource-Located Theme Snippets
Section titled “Source-Located Theme Snippets”Magnetism
Section titled “Magnetism”... have to distinguish between terminal voltage E, real generated e.m.f. #1, virtual generated e.m.f. EZ, and nominal generated e.m.f. EQ. The real generated e.m.f. EI is the e.m.f. generated in the alter- nator armature turns by the resultant magnetic flux, or mag- netic flux interlinked with them, that is, by the magnetic flux passing through the armature core. It is equal to the terminal voltage plus the e.m.f. consumed by the resistance of the arma- ture, these two e.m.fs. being take ...Field language
Section titled “Field language”... se two e.m.fs. being taken in their proper phase relation; thus Ei = E + Ir, where / = current in armature, r = effective resistance. The virtual generated e.m.f. E2 is the e.m.f. which would be generated by the flux produced by the field poles, or flux corre- sponding to the resultant m.m.f., that is, the resultant of the SYNCHRONOUS MACHINES 129 m.m.fs. of field excitation and of armature reaction. Since the magnetic flux produced by the armature, or flux of armature sel ...Impedance / reactance
Section titled “Impedance / reactance”... armature by self-inductance, have no real and independent existence, but are merely fictitious components of the real or resultant generated e.m.f. EI. The virtual generated e.m.f. is Ei = Et + jlx, where x is the self -inductive armature reactance, and the e.m.f consumed by self-inductance Ix is to be combined with the real generated e.m.f. EI in the proper phase relation. 7. The nominal generated e.m.f. EQ is the e.m.f. which would be generated by the field excitation if there w ...Chapter-Local Concept Hits
Section titled “Chapter-Local Concept Hits”| Concept Candidate | Hits In Section | Status |
|---|---|---|
| No chapter-local term hits yet | - | - |
Chapter-Local Glossary Hits
Section titled “Chapter-Local Glossary Hits”| Term Candidate | Hits In Section | Status |
|---|---|---|
| No chapter-local term hits yet | - | - |
Equation Candidates
Section titled “Equation Candidates”| Candidate ID | OCR / PDF-Text Candidate | Source Location |
|---|---|---|
| No chapter-local candidates yet | - | - |
Figure Candidates
Section titled “Figure Candidates”| Candidate ID | OCR / PDF-Text Candidate | Source Location |
|---|---|---|
| No chapter-local candidates yet | - | - |
Hidden-Gem Quote Candidates
Section titled “Hidden-Gem Quote Candidates”| Candidate ID | Candidate Passage | Source Location |
|---|---|---|
| No chapter-local candidates yet | - | - |
Modern Engineering Reading Prompts
Section titled “Modern Engineering Reading Prompts”- Magnetism: Track flux, reluctance, permeability, magnetizing force, and loss language against modern magnetic-circuit terminology.
- Field language: Read for whether field language is mechanical, geometrical, causal, descriptive, or simply a convenient engineering model.
- Impedance / reactance: Translate historical opposition terms into modern impedance, admittance, conductance, susceptance, and complex-plane notation.
Ether-Field Interpretive Boundary
Section titled “Ether-Field Interpretive Boundary”- Magnetism: Centrifugal/divergent magnetic-field readings are interpretive overlays, not automatic historical claims.
- Field language: Field-pressure or field-gradient interpretations can be explored here only after the explicit source passage and modern engineering translation are kept distinct.
Promotion Checklist
Section titled “Promotion Checklist”- Open the full source text and the scan or raw PDF.
- Verify the chapter boundary and surrounding context.
- Promote exact quotations only after checking the source image.
- Move mathematical candidates into canonical equation pages only after formula typography is corrected.
- Move diagram candidates into the diagram archive only after image extraction, crop verification, and manifest creation.
- Keep Steinmetz wording, modern translation, and ether-field interpretation in separate labeled layers.