Chapter 1: BASIC CONCEPTS OF ELECTRICITY
- Static electricity
- Conductors, insulators, and electron flow
- Electric circuits
- Voltage and current
- Resistance
- Voltage and current in a practical circuit
- Conventional versus electron flow
Chapter 2: OHM's LAW
Chapter 3: ELECTRICAL SAFETY
Chapter 4: SCIENTIFIC NOTATION AND METRIC PREFIXES
Chapter 5: SERIES AND PARALLEL CIRCUITS
Chapter 6: DIVIDER CIRCUITS AND KIRCHHOFF'S LAWS
Chapter 7: SERIES-PARALLEL COMBINATION CIRCUITS
Chapter 8: DC METERING CIRCUITS
Chapter 9: ELECTRICAL INSTRUMENTATION SIGNALS
Chapter 10: DC NETWORK ANALYSIS
- What is network analysis?
- Branch current method
- Mesh current method
- Node voltage method
- Introduction to network theorems
- Millman's Theorem
- Superposition Theorem
- Thevenin's Theorem
- Norton's Theorem
- Thevenin-Norton equivalencies
- Millman's Theorem revisited
- Maximum Power Transfer Theorem
-Y and Y- conversions - Contributors
Chapter 11: BATTERIES AND POWER SYSTEMS
Chapter 12: PHYSICS OF CONDUCTORS AND INSULATORS
Chapter 13: CAPACITORS
Chapter 14: MAGNETISM AND ELECTROMAGNETISM
Chapter 15: INDUCTORS
Chapter 16: RC AND L/R TIME CONSTANTS
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