Introduction
Unit 1: Prerequisites
DC Math
Engineering Notation and Prefixes
General Industrial Safety
Unit Conversion
Unit 2: Basic Electrical Properties
Energy and Power
Energy and Power Examples
Efficiency
Efficiency Examples
Capacity Factor
Capacity Factor Examples
Basic Electrical Quantities
Power Generation, Transmission, and Use
Unit 3: Resistance
Resistance
4 Band Resistor Color Code
Series Resistors
Parallel Resistors
Ohmmeters: BK Precision 2831E
Ohmmeters: Fluke 87
Variable Resistors
Prototyping Boards
Unit 4: DC Ohm's Law
DC Ohm's Law
DC Power
DC Ohm's Law and Power Examples
DC Voltmeters: BK Precision 2831E
DC Voltmeters: Fluke 87
DC Power Supplies
DC Ammeters: BK Precision 2831E
DC Ammeters: Fluke 87
Amp Clamps: Megger DCM340
Verifying DC Ohm's Law
Electrical Safety and Ohm's Law
Unit 5: Series DC Circuit Analysis
Series DC Circuit Properties
DC Voltage Divider Rule
Switches in Series DC Circuits
DC Voltage Sources in Series Circuits
Introduction to Circuit Protection
Series DC Circuit Examples: Level 1
Series DC Circuit Examples: Level 2
Unit 6: Parallel DC Circuits
Parallel DC Circuits
DC Current Divider Rule
DC Current Sources
Voltage Sources in Parallel Circuits
Parallel DC Circuit Examples: Level 1
Parallel DC Circuit Examples: Level 2
Unit 7: Series-Parallel DC Circuit Analysis
Series-Parallel DC Circuit Analysis
Series-Parallel Voltage Divider Circuits
Instrument Loading Effects
Series-Parallel DC Circuit Examples: Level 1
Series-Parallel DC Circuit Examples: Level 2
Unit 8: DC Circuit Analysis Theorems
Resistive Delta-Y Conversions
DC Source Conversion
DC Superposition Theorem
DC Superposition Theorem Examples
DC Thevenin's Theorem
DC Norton's Theorem
DC Maximum Power Transfer Theorem
DC Thevenin's and Maximum Power Transfer Theorem Examples
Complex DC Circuit Analysis
Appendix
Energy and Power Examples Study Guide
Basic Electricity and Electronics 1 by Jim Pytel is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License, except where otherwise noted.