Principles of Electric Circuits: Conventional Current, Global Edition, 10th Edition
- Length: 1029 pages
- Edition: 10
- Language: English
- Publisher: Pearson
- Publication Date: 2021-06-15
- ISBN-10: 1292358092
- ISBN-13: 9781292358093
- Sales Rank: #0 (See Top 100 Books)
For courses in DC/AC circuits: conventional flow.
Complete, accessible introductionto DC/AC circuits
Principles of Electric Circuits: Conventional Current Version provides a uniquely clear introduction tofundamental circuit laws and components, using math only when needed forunderstanding. Floyd’s acclaimed coverage of troubleshooting ― combined with exercises,examples, and illustrations ― gives students the problem-solving experience they need to step outsidethe classroom and into a job. The 10th edition has beenheavily modified to improve readability and clarity and to update the text toreflect developments in technology since the last edition. This edition alsoadds new step-by-step procedures for solving problems with the TI-84 Plus CEgraphing calculator.
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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