Table of Contents

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

  • How voltage, current, and resistance relate
  • An analogy for Ohm's Law
  • Power in electric circuits
  • Calculating electric power
  • Resistors
  • Nonlinear conduction
  • Circuit wiring
  • Polarity of voltage drops
  • Computer simulation of electric circuits
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• Chapter 3: ELECTRICAL SAFETY

  • The importance of electrical safety
  • Physiological effects of electricity
  • Shock current path
  • Ohm's Law (again!)
  • Safe practices
  • Emergency response
  • Common sources of hazard
  • Safe circuit design
  • Safe meter usage
  • Electric shock data
  • Contributors

• Chapter 4: SCIENTIFIC NOTATION AND METRIC PREFIXES

  • Scientific notation
  • Arithmetic with scientific notation
  • Metric notation
  • Metric prefix conversions
  • Hand calculator use
  • Scientific notation in SPICE
  • Contributors

• Chapter 5: SERIES AND PARALLEL CIRCUITS

  • What are "series" and "parallel" circuits?
  • Simple series circuits
  • Simple parallel circuits
  • Conductance
  • Power calculations
  • Correct use of Ohm's Law
  • Component failure analysis
  • Building simple resistor circuits
  • Contributors

• Chapter 6: DIVIDER CIRCUITS AND KIRCHHOFF'S LAWS

  • Voltage divider circuits
  • Kirchhoff's Voltage Law (KVL)
  • Current divider circuits
  • Kirchhoff's Current Law (KCL)
  • Contributors

• Chapter 7: SERIES-PARALLEL COMBINATION CIRCUITS

  • What is a series-parallel circuit?
  • Analysis technique
  • Re-drawing complex schematics
  • Component failure analysis
  • Building series-parallel resistor circuits
  • Contributors

• Chapter 8: DC METERING CIRCUITS

  • What is a meter?
  • Voltmeter design
  • Voltmeter impact on measured circuit
  • Ammeter design
  • Ammeter impact on measured circuit
  • Ohmmeter design
  • High voltage ohmmeters
  • Multimeters
  • Kelvin (4-wire) resistance measurement
  • Bridge circuits
  • Wattmeter design
  • Creating custom calibration resistances
  • Contributors

• Chapter 9: ELECTRICAL INSTRUMENTATION SIGNALS

  • Analog and digital signals
  • Voltage signal systems
  • Current signal systems
  • Tachogenerators
  • Thermocouples
  • pH measurement
  • Strain gauges
  • Contributors

• 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

  • Electron activity in chemical reactions
  • Battery construction
  • Battery ratings
  • Special-purpose batteries
  • Practical considerations
  • Contributors

• Chapter 12: PHYSICS OF CONDUCTORS AND INSULATORS

  • Introduction
  • Conductor size
  • Conductor ampacity
  • Fuses
  • Specific resistance
  • Temperature coefficient of resistance
  • Superconductivity
  • Insulator breakdown voltage
  • Data
  • Contributors

• Chapter 13: CAPACITORS

  • Electric fields and capacitance
  • Capacitors and calculus
  • Factors affecting capacitance
  • Series and parallel capacitors
  • Practical considerations
  • Contributors

• Chapter 14: MAGNETISM AND ELECTROMAGNETISM

  • Permanent magnets
  • Electromagnetism
  • Magnetic units of measurement
  • Permeability and saturation
  • Electromagnetic induction
  • Mutual inductance
  • Contributors

• Chapter 15: INDUCTORS

  • Magnetic fields and inductance
  • Inductors and calculus
  • Factors affecting inductance
  • Series and parallel inductors
  • Practical considerations
  • Contributors

• Chapter 16: RC AND L/R TIME CONSTANTS

  • Electrical transients
  • Capacitor transient response
  • Inductor transient response
  • Voltage and current calculations
  • Why L/R and not LR?
  • Complex voltage and current calculations
  • Complex circuits
  • Solving for unknown time
  • Contributors