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Introduction
Part 1.1 - AC Voltage and Current
Part 1.2 - AC Voltage and Current
Part 2 - AC Sine Wave
Part 3 - Resistive Curve
Part 4 - Inductive Circuits
Part 5 - Capacitive Circuits
Part 6 - Combined Circuits
Part 7 - Power in AC Circuits
Part 8 - Power Factor
Part 9 - Three-Phase AC and Calculations
Part 1 - DC Machine Construction and Operating Principles
Part 2 - Constructional Details of DC Machines
Part 3 - DC Generators
Part 4 - Parallel Operation of DC Generation
Part 5 - DC Motor Operation
Part 6 - Torque and Speed
Part 7 - DC Motors
Part 8 - DC Motor Starters
Part 9 - DC Machine Braking
Part 10 - DC Efficiency
Part 1 - Alternator Rotors
Part 2 - Alternator Relationships
Part 3 - Exciters
Part 4 - Alternator Voltage Regulation
Part 5 - Alternator Cooling Systems
Part 6 - Shaft Sealing
Part 7 - Parallel Operation of Generators
Part 8 - AC Generator Efficiency and Power Losses
Part 1 - Magnetic Fields of AC Motors
Part 2 - Induction Motors
Part 3 - Motor Amperage Principles
Part 4 - Wound Rotor Motors
Part 5 - Single Phase AC Motors
Part 6 - Synchronous Motors
Part 1 - Shell and Core Transformers
Part 2 - Transformer Rating
Part 3 - Transformer Calculations
Part 4 - Transformer Testing
Part 5 - Transformer Cooling
Part 6 - Transformer Connections
Part 7 - Paralleling Transformers
Part 8 - Instrument Transformers
Part 9 - Protective Systems on Transformers
Part 1 - Fuse and Circuit Breakers (Electrical Systems Protection)
Part 2 - Fuse Design
Part 3 - Circuit Breaker Operation
Part 4 - Switches and Contactors
Part 5 - Alternator Protective Relays
Part 6 - Motor Protection Devices
Appendix
Chapter 1: Alternating Current Theories
By the end of this module, you should be able to:
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PEG-3722 Electrotechnology Copyright © by Josee Beaulieu. All Rights Reserved.