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Basic Engineering Circuit Analysis, 12th Edition by J. David Irwin 9781119501954 1119501954

Name: Basic Engineering Circuit Analysis, 12th Edition by J. David Irwin 9781119501954 1119501954
SKU: EB-46232340
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Basic Engineering Circuit Analysis, 12th Edition J. David Irwin Digital Instant Download

Author(s): J. David Irwin, R. Mark Nelms

ISBN(s): 9781119501954, 9781119502012, 9781119501985, 9782020028691, 2020028697, 1119501954, 1119502012, 1119501989, 2020028696

Edition: 12th

File Details: PDF, 35.36 MB

Year: 2021

Language: English

SKU: EB-46232340 Category: Engineering - Electrical & Electronic Engineering Tags: 1119501954, 9781119501954, Basic Engineering, Circuit Analysis, J. David Irwin, R. Mark Nelms

Description

Basic Engineering Circuit Analysis, 12th Edition J. David Irwin – Ebook Instant Download/Delivery ISBN(s): 9781119501954, 1119501954

Product details:

ISBN 10:1119501954
ISBN 13: 9781119501954
Author: J. David Irwin

Basic Engineering Circuit Analysis, Enhanced eText

Basic Engineering Circuit Analysis has long been regarded as the most dependable textbook for computer and electrical engineering majors. In this new edition, Irwin and Nelms continue to develop the most complete set of pedagogical tools available and provide the highest level of support for students entering into this complex subject. Irwin and Nelms trademark student-centered learning design focuses on helping students complete the connection between theory and practice. Key concepts are explained clearly and illustrated by detailed, worked examples. These are then followed by Learning Assessments, which allow students to work similar problems and check their results against the answers provided.

Table contents:

CHAPTER 1: Basic Concepts
Readings
1.1 System of Units
1.2 Basic Quantities
1.3 Circuit Elements
Chapter Summary and Study Guide
Summary
Practice and Homework Problems
Problems
Study Resources
CHAPTER 2: Resistive Circuits
Readings
2.1 Ohm’s Law
2.2 Kirchhoff’s Laws
2.3 Single-Loop Circuits
2.4 Single-Node-Pair Circuits
2.5 Series and Parallel Resistor Combinations
2.6 Circuits with Series-Parallel Combinations of Resistors
2.7 Wye ⇌ Delta Transformations
2.8 Circuits with Dependent Sources
2.9 Resistor Technologies for Electronic Manufacturing
2.10 Application Examples
2.11 Design Examples
Chapter Summary and Study Guide
Summary
Practice and Homework Problems
Problems
Study Resources
CHAPTER 3: Nodal and Loop Analysis Techniques
Readings
3.1 Nodal Analysis
3.2 Loop Analysis
3.3 Application Example
3.4 Design Example
Chapter Summary and Study Guide
Summary
Practice and Homework Problems
Problems
Study Resources
CHAPTER 4: Operational Amplifiers
Readings
4.1 Introduction
4.2 Op-Amp Models
4.3 Fundamental Op-Amp Circuits
4.4 Comparators
4.5 Application Examples
4.6 Design Examples
Chapter Summary and Study Guide
Summary
Practice and Homework Problems
Problems
Study Resources
CHAPTER 5: Additional Analysis Techniques
Readings
5.1 Introduction
5.2 Superposition
5.3 Thévenin’s and Norton’s Theorems
5.4 Maximum Power Transfer
5.5 Application Example
5.6 Design Examples
Chapter Summary and Study Guide
Summary
Practice and Homework Problems
Problems
Study Resources
CHAPTER 6: Capacitance and Inductance
Readings
6.1 Capacitors
6.2 Inductors
6.3 Capacitor and Inductor Combinations
6.4 RC Operational Amplifier Circuits
6.5 Application Examples
6.6 Design Examples
Chapter Summary and Study Guide
Summary
Practice and Homework Problems
Problems
Study Resources
CHAPTER 7: First- and Second-Order Transient Circuits
Readings
7.1 Introduction
7.2 First-Order Circuits
7.3 Second-Order Circuits
7.4 Application Examples
7.5 Design Examples
Chapter Summary and Study Guide
Summary
Practice and Homework Problems
Problems
Study Resources
CHAPTER 8: AC Steady-State Analysis
Readings
8.1 Sinusoids
8.2 Sinusoidal and Complex Forcing Functions
8.3 Phasors
8.4 Phasor Relationships for Circuit Elements
8.5 Impedance and Admittance
8.6 Phasor Diagrams
8.7 Basic Analysis Using Kirchhoff’s Laws
8.8 Analysis Techniques
8.9 Application Examples
8.10 Design Examples
Chapter Summary and Study Guide
Summary
Practice and Homework Problems
Problems
Study Resources
CHAPTER 9: Steady-State Power Analysis
Readings
9.1 Instantaneous Power
9.2 Average Power
9.3 Maximum Average Power Transfer
9.4 Effective or RMS Values
9.5 The Power Factor
9.6 Complex Power
9.7 Power Factor Correction
9.8 Single-Phase Three-Wire Circuits
9.9 Safety Considerations
9.10 Application Examples
9.11 Design Examples
Chapter Summary and Study Guide
Summary
Practice and Homework Problems
Problems
Study Resources
CHAPTER 10: Magnetically Coupled Networks
Readings
10.1 Mutual Inductance
10.2 Energy Analysis
10.3 The Ideal Transformer
10.4 Safety Considerations
10.5 Application Examples
10.6 Design Examples
Chapter Summary and Study Guide
Summary
Practice and Homework Problems
Problems
Study Resources
CHAPTER 11: Polyphase Circuits
Readings
11.1 Three-Phase Circuits
11.2 Three-Phase Connections
11.3 Source/Load Connections
11.4 Power Relationships
11.5 Power Factor Correction
11.6 Application Examples
11.7 Design Examples
Chapter Summary and Study Guide
Summary
Practice and Homework Problems
Problems
Study Resources
CHAPTER 12: Variable-Frequency Network Performance
Readings
12.1 Variable Frequency-Response Analysis
12.2 Sinusoidal Frequency Analysis
12.3 Resonant Circuits
12.4 Scaling
12.5 Filter Networks
12.6 Application Examples
12.7 Design Examples
Chapter Summary and Study Guide
Summary
Practice and Homework Problems
Problems
Study Resources
CHAPTER 13: The Laplace Transform
Readings
13.1 Definition
13.2 Two Important Singularity Functions
13.3 Transform Pairs
13.4 Properties of the Transform
13.5 Performing the Inverse Transform
13.6 Convolution Integral
13.7 Initial-Value and Final-Value Theorems
13.8 Solving Differential Equations with Laplace Transforms
Chapter Summary and Study Guide
Summary
Practice and Homework Problems
Problems
Study Resources
CHAPTER 14: Application of the Laplace Transform to Circuit Analysis
Readings
14.1 Laplace Circuit Solutions
14.2 Circuit Element Models
14.3 Analysis Techniques
14.4 Transfer Function
14.5 Pole-Zero Plot/Bode Plot Connection
14.6 Steady-State Response
Chapter Summary and Study Guide
Summary
Practice and Homework Problems
Problems
Study Resources
CHAPTER 15: Fourier Analysis Techniques
Readings
15.1 Fourier Series
15.2 Fourier Transform
15.3 Application Example
15.4 Design Examples
Chapter Summary and Study Guide
Summary
Practice and Homework Problems
Problems
Study Resources
CHAPTER 16: Two-Port Networks
Readings
16.1 Admittance Parameters
16.2 Impedance Parameters
16.3 Hybrid Parameters
16.4 Transmission Parameters
16.5 Parameter Conversions
16.6 Interconnection of Two-Ports