First encounter with circuit theory
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Description
Book Introduction
"Circuit Theory for Beginners" is an introductory book for engineering students learning circuit theory for the first time, and contains a selection of essential content, from the basics of circuits to circuit analysis.
Based on his experience teaching 'Circuit Theory for Non-Majors' in the United States, the author faithfully explains basic concepts that beginners can easily overlook.
In addition, various visual materials are used to help readers intuitively understand the theory, and general knowledge and additional information related to the text are provided in the form of [Questions] and [Answers] to stimulate interest in circuits.
In this second edition, we have significantly increased the number of examples and practice problems so that you can solve problems of different difficulty levels.
※ This book was developed as a textbook for university lectures, so it does not provide solutions to practice problems.
However, some answers can be downloaded from [Appendix/Example Source].
Based on his experience teaching 'Circuit Theory for Non-Majors' in the United States, the author faithfully explains basic concepts that beginners can easily overlook.
In addition, various visual materials are used to help readers intuitively understand the theory, and general knowledge and additional information related to the text are provided in the form of [Questions] and [Answers] to stimulate interest in circuits.
In this second edition, we have significantly increased the number of examples and practice problems so that you can solve problems of different difficulty levels.
※ This book was developed as a textbook for university lectures, so it does not provide solutions to practice problems.
However, some answers can be downloaded from [Appendix/Example Source].
- You can preview some of the book's contents.
Preview
index
CHAPTER 01 Circuit Basics
SECTION 1.1 Circuit Components
SECTION 1.2 Understanding Circuit Design
SECTION 1.3 Equivalent Resistance and Open/Short Circuits
Practice problems
CHAPTER 02 Various methods of circuit analysis
SECTION 2.1 Voltage and Current Division Law
SECTION 2.2 Core Circuit Analysis Methods
SECTION 2.3 Thevenin and Norton Equivalent Circuits
Practice problems
CHAPTER 03 Capacitors and Inductors
SECTION 3.1 Capacitors
SECTION 3.2 CONNECTION OF CAPACITORS
SECTION 3.3 Inductors
SECTION 3.4 CONNECTION OF INDUCTORS
Practice problems
CHAPTER 04 Basic Mathematics for Circuit Analysis
SECTION 4.1 Linear Equations
SECTION 4.2 Differential Equations
SECTION 4.3 Complex Numbers
Practice problems
CHAPTER 05 Primary and Secondary Circuits
SECTION 5.1 Primary Circuit
SECTION 5.2 Secondary Circuits
Practice problems
CHAPTER 06 AC Circuits
SECTION 6.1 Sinusoidal Signals
SECTION 6.2 Fourier Theorem for AC Analysis
SECTION 6.3 Phase Vectors
SECTION 6.4 Impedance of Passive Components
SECTION 6.5 Analysis of AC Circuits
Practice problems
CHAPTER 07 Power in AC Circuits
SECTION 7.1 POWER IN AC CIRCUITS
SECTION 7.2 3-PHASE POWER
SECTION 7.3 Balanced Three-Phase Systems
Practice problems
CHAPTER 08 Frequency Response
SECTION 8.1 Frequency Response and Transfer Function
SECTION 8.2 Resonant Frequency
SECTION 8.3 Filter Types by Frequency Range
SECTION 8.4 Visual Frequency Response Interpretation Methods
Practice problems
CHAPTER 09 Circuit Analysis Using Laplace Transforms
SECTION 9.1 Laplace Transform and Inverse Transform
SECTION 9.2 Basic Properties of the Laplace Transform
SECTION 9.3 Circuit elements and transfer functions in the Laplace domain
SECTION 9.4 Circuit Analysis in the Laplace Domain
Practice problems
SECTION 1.1 Circuit Components
SECTION 1.2 Understanding Circuit Design
SECTION 1.3 Equivalent Resistance and Open/Short Circuits
Practice problems
CHAPTER 02 Various methods of circuit analysis
SECTION 2.1 Voltage and Current Division Law
SECTION 2.2 Core Circuit Analysis Methods
SECTION 2.3 Thevenin and Norton Equivalent Circuits
Practice problems
CHAPTER 03 Capacitors and Inductors
SECTION 3.1 Capacitors
SECTION 3.2 CONNECTION OF CAPACITORS
SECTION 3.3 Inductors
SECTION 3.4 CONNECTION OF INDUCTORS
Practice problems
CHAPTER 04 Basic Mathematics for Circuit Analysis
SECTION 4.1 Linear Equations
SECTION 4.2 Differential Equations
SECTION 4.3 Complex Numbers
Practice problems
CHAPTER 05 Primary and Secondary Circuits
SECTION 5.1 Primary Circuit
SECTION 5.2 Secondary Circuits
Practice problems
CHAPTER 06 AC Circuits
SECTION 6.1 Sinusoidal Signals
SECTION 6.2 Fourier Theorem for AC Analysis
SECTION 6.3 Phase Vectors
SECTION 6.4 Impedance of Passive Components
SECTION 6.5 Analysis of AC Circuits
Practice problems
CHAPTER 07 Power in AC Circuits
SECTION 7.1 POWER IN AC CIRCUITS
SECTION 7.2 3-PHASE POWER
SECTION 7.3 Balanced Three-Phase Systems
Practice problems
CHAPTER 08 Frequency Response
SECTION 8.1 Frequency Response and Transfer Function
SECTION 8.2 Resonant Frequency
SECTION 8.3 Filter Types by Frequency Range
SECTION 8.4 Visual Frequency Response Interpretation Methods
Practice problems
CHAPTER 09 Circuit Analysis Using Laplace Transforms
SECTION 9.1 Laplace Transform and Inverse Transform
SECTION 9.2 Basic Properties of the Laplace Transform
SECTION 9.3 Circuit elements and transfer functions in the Laplace domain
SECTION 9.4 Circuit Analysis in the Laplace Domain
Practice problems
Detailed image
GOODS SPECIFICS
- Date of issue: July 2, 2021
- Page count, weight, size: 400 pages | 188*257*30mm
- ISBN13: 9791156645474
- ISBN10: 1156645476
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