Floyd

Floyd

This title is a Pearson Global Edition. The Editorial team at Pearsonhas worked closely with educators around the world to include content which isespecially relevant to students outside the United States. For courses in DC/AC circuits: conventional flow. Complete, accessible introductionto DC/AC ci...

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Bibliographic Details
Main Author: Thomas, Floyd (-)
Other Authors: Buchla, David M., autor (autor)
Format: eBook
Language:Inglés
Published: Harlow : Pearson Education, Limited 2021.
Edition:10th ed
Subjects:
Electric circuits.
Circuitos eléctricos.
Libros electrónicos.
See on Biblioteca Universitat Ramon Llull:https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009863796506719
Table of Contents:
  • Cover
  • Title Page
  • Copyright
  • Dedication
  • Preface
  • Contents
  • 1. Quantities and Units
  • 1-1 Units of Measurement
  • 1-2 Scientific Notation
  • 1-3 Engineering Notation and Metric Prefixes
  • 1-4 Metric Unit Conversions
  • 1-5 Measured Numbers
  • 2. Voltage, Current, and Resistance
  • 2-1 Atomic Structure
  • 2-2 Electrical Charge
  • 2-3 Voltage
  • 2-4 Current
  • 2-5 Resistance
  • 2-6 The Electric Circuit
  • 2-7 Basic Circuit Measurements
  • 2-8 Electrical Safety
  • Application Activity
  • 3. Ohm's Law
  • 3-1 The Relationship of Current, Voltage, and Resistance
  • 3-2 Current Calculations
  • 3-3 Voltage Calculations
  • 3-4 Resistance Calculations
  • 3-5 Introduction to Troubleshooting
  • Application Activity
  • 4. Energy and Power
  • 4-1 Energy and Power
  • 4-2 Power in an Electric Circuit
  • 4-3 Resistor Power Ratings
  • 4-4 Energy Conversion and Voltage Drop in Resistance
  • 4-5 Power Supplies and Batteries
  • Application Activity
  • 5. Series Circuits
  • 5-1 Resistors in Series
  • 5-2 Total Series Resistance
  • 5-3 Current in a Series Circuit
  • 5-4 Application of Ohm's Law
  • 5-5 Voltage Sources in Series
  • 5-6 Kirchhoff's Voltage Law
  • 5-7 Voltage Dividers
  • 5-8 Power in Series Circuits
  • 5-9 Voltage Measurements
  • 5-10 Troubleshooting
  • Application Activity
  • 6. Parallel Circuits
  • 6-1 Resistors in Parallel
  • 6-2 Voltage in a Parallel Circuit
  • 6-3 Kirchhoff's Current Law
  • 6-4 Total Parallel Resistance
  • 6-5 Application of Ohm's Law
  • 6-6 Current Sources in Parallel
  • 6-7 Current Dividers
  • 6-8 Power in Parallel Circuits
  • 6-9 Parallel Circuit Applications
  • 6-10 Troubleshooting
  • Application Activity
  • 7. Series-Parallel Circuits
  • 7-1 Identifying Series-Parallel Relationships
  • 7-2 Analysis of Series-Parallel Resistive Circuits
  • 7-3 Voltage Dividers with Resistive Loads.
  • 7-4 Loading Effect of a Voltmeter
  • 7-5 Ladder Networks
  • 7-6 The Wheatstone Bridge
  • 7-7 Troubleshooting
  • Application Activity
  • 8. Circuit Theorems and Conversions
  • 8-1 The DC Voltage Source
  • 8-2 The Current Source
  • 8-3 Source Conversions
  • 8-4 The Superposition Theorem
  • 8-5 Thevenin's Theorem
  • 8-6 Norton's Theorem
  • 8-7 Maximum Power Transfer Theorem
  • 8-8 Delta-to-Wye (Δ-to-Y) and Wye-to-Delta (Y-to-Δ) Conversions
  • Application Activity
  • 9. Branch, Loop, and Node Analyses
  • 9-1 Simultaneous Equations in Circuit Analysis
  • 9-2 Branch Current Method
  • 9-3 Loop Current Method
  • 9-4 Node Voltage Method
  • Application Activity
  • 10. Magnetism and Electromagnetism
  • 10-1 The Magnetic Field
  • 10-2 Electromagnetism
  • 10-3 Electromagnetic Devices
  • 10-4 Magnetic Hysteresis
  • 10-5 Electromagnetic Induction
  • 10-6 The DC Generator
  • 10-7 The DC Motor
  • Application Activity
  • 11. Introduction to Alternating Current and Voltage
  • 11-1 The Sinusoidal Waveform
  • 11-2 Sinusoidal Voltage and Current Values
  • 11-3 Angular Measurement of a Sine Wave
  • 11-4 The Sine Wave Formula
  • 11-5 Introduction to Phasors
  • 11-6 Analysis of AC Circuits
  • 11-7 The Alternator (AC Generator)
  • 11-8 The AC Motor
  • 11-9 Nonsinusoidal Waveforms
  • 11-10 The Oscilloscope
  • Application Activity
  • 12. Capacitors
  • 12-1 The Basic Capacitor
  • 12-2 Types of Capacitors
  • 12-3 Series Capacitors
  • 12-4 Parallel Capacitors
  • 12-5 Capacitors in DC Circuits
  • 12-6 Capacitors in AC Circuits
  • 12-7 Capacitor Applications
  • 12-8 Switched-Capacitor Circuits
  • Application Activity
  • 13. RC Circuits
  • 13-1 The Complex Number System
  • Part 1. Series Circuits
  • 13-2 Sinusoidal Response of Series RC Circuits
  • 13-3 Impedance of Series RC Circuits
  • 13-4 Analysis of Series RC Circuits
  • Part 2. Parallel Circuits.
  • 13-5 Impedance and Admittance of Parallel RC Circuits
  • 13-6 Analysis of Parallel RC Circuits
  • Part 3. Series-Parallel Circuits
  • 13-7 Analysis of Series-Parallel RC Circuits
  • Part 4. Special Topics
  • 13-8 Power in RC Circuits
  • 13-9 Basic Applications
  • 13-10 Troubleshooting
  • Application Activity
  • 14. Inductors
  • 14-1 The Basic Inductor
  • 14-2 Types of Inductors
  • 14-3 Series and Parallel Inductors
  • 14-4 Inductors in DC Circuits
  • 14-5 Inductors in AC Circuits
  • 14-6 Inductor Applications
  • Application Activity
  • 15. RL Circuits
  • Part 1. Series Circuits
  • 15-1 Sinusoidal Response of Series RL Circuits
  • 15-2 Impedance of Series RL Circuits
  • 15-3 Analysis of Series RL Circuits
  • Part 2. Parallel Circuits
  • 15-4 Impedance and Admittance of Parallel RL Circuits
  • 15-5 Analysis of Parallel RL Circuits
  • Part 3. Series-Parallel Circuits
  • 15-6 Analysis of Series-Parallel RL Circuits
  • Part 4. Special Topics
  • 15-7 Power in RL Circuits
  • 15-8 Basic Applications
  • 15-9 Troubleshooting
  • Application Activity
  • 16. Transformers
  • 16-1 Mutual Inductance
  • 16-2 The Basic Transformer
  • 16-3 Step-Up and Step-Down Transformers
  • 16-4 Loading the Secondary
  • 16-5 Reflected Load
  • 16-6 Impedance Matching
  • 16-7 Transformer Ratings and Characteristics
  • 16-8 Tapped and Multiple-Winding Transformers
  • 16-9 Troubleshooting
  • Application Activity
  • 17. RLC Circuits and Resonance
  • Part 1. Series Circuits
  • 17-1 Impedance of Series RLC Circuits
  • 17-2 Analysis of Series RLC Circuits
  • 17-3 Series Resonance
  • Part 2. Parallel Circuits
  • 17-4 Impedance of Parallel RLC Circuits
  • 17-5 Analysis of Parallel RLC Circuits
  • 17-6 Parallel Resonance
  • Part 3. Series-Parallel Circuits
  • 17-7 Analysis of Series-Parallel RLC Circuits
  • Part 4. Special Topics
  • 17-8 Bandwidth of Resonant Circuits
  • 17-9 Applications.
  • Application Activity
  • 18. Passive Filters
  • 18-1 Low-Pass Filters
  • 18-2 High-Pass Filters
  • 18-3 Band-Pass Filters
  • 18-4 Band-Stop Filters
  • Application Activity
  • 19. Circuit Theorems in AC Analysis
  • 19-1 The Superposition Theorem
  • 19-2 Thevenin's Theorem
  • 19-3 Norton's Theorem
  • 19-4 Maximum Power Transfer Theorem
  • Application Activity
  • 20. Time Response of Reactive Circuits
  • 20-1 The RC Integrator
  • 20-2 Response of an RC Integrator to a Single Pulse
  • 20-3 Response of RC Integrators to Repetitive Pulses
  • 20-4 Response of an RC Differentiator to a Single Pulse
  • 20-5 Response of RC Differentiators to Repetitive Pulses
  • 20-6 Response of RL Integrators to Pulse Inputs
  • 20-7 Response of RL Differentiators to Pulse Inputs
  • 20-8 Relationship of Time Response to Frequency Response
  • 20-9 Troubleshooting
  • Application Activity
  • 21. Three-Phase Systems in Power Applications
  • 21-1 Generators in Power Applications
  • 21-2 Types of Three-Phase Generators
  • 21-3 Three-Phase Source/Load Analysis
  • 21-4 Three-Phase Power
  • Appendices
  • Appendix A. Table of Standard Resistor Values
  • Appendix B. Derivations
  • Appendix C. Capacitor Label Coding
  • Appendix D. NI Multisim for Circuit Simulation
  • Answers to Odd-Numbered Problems
  • Glossary
  • Index.

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