search for books and compare prices
Tables of Contents for Principles of Electric Circuits
Chapter/Section Title
Page #
Page Count
Components, Quantities, and Units
1
17
Electrical Components and Measuring Instruments
2
5
Electrical and Magnetic Units
7
1
Scientific Notation
8
3
Metric Prefixes
11
2
Metric Unit Conversions
13
5
Voltage, Current, and Resistance
18
50
Atomic Structure
20
3
Electrical Charge
23
2
Voltage
25
4
Current
29
1
Resistance
30
7
The Electric Circuit
37
8
Basic Circuit Measurements
45
7
Technology Theory into Practice
52
16
Ohm's Law
68
22
Ohm's Law
70
2
Calculating Current
72
3
Calculating Voltage
75
2
Calculating Resistance
77
2
The Relationship of Current, Voltage, and Resistance
79
3
Technology Theory into Practice
82
8
Energy and Power
90
20
Energy and Power
92
2
Power in an Electric Circuit
94
2
Resistor Power Ratings
96
4
Energy Conversion and Voltage Drop in Resistance
100
1
Power Supplies
101
2
Technology Theory into Practice
103
7
Series Circuits
110
50
Resistors in Series
112
2
Current in a Series Circuit
114
2
Total Series Resistance
116
3
Ohm's Law in Series Circuits
119
4
Voltage Sources in Series
123
3
Kirchhoff's Voltage Law
126
3
Voltage Dividers
129
7
Power in a Series Circuit
136
2
Circuit Ground
138
4
Troubleshooting
142
2
Technology Theory into Practice
144
16
Parallel Circuits
160
50
Resistors in Parallel
162
3
Voltage Drop in Parallel Circuits
165
1
Kirchhoff's Current Law
166
4
Total Parallel Resistance
170
6
Ohm's Law in Parallel Circuits
176
4
Current Sources in Parallel
180
1
Current Dividers
181
4
Power in Parallel Circuits
185
2
Examples of Parallel Circuit Applications
187
5
Troubleshooting
192
4
Technology Theory into Practice
196
14
Series-Parallel Circuits
210
50
Identifying Series-Parallel Relationships
212
5
Analysis of Series-Parallel Circuits
217
8
Voltage Dividers with Resistive Loads
225
4
Loading Effect of a Voltmeter
229
3
Ladder Networks
232
5
The Wheatstone Bridge
237
3
Troubleshooting
240
3
Technology Theory into Practice
243
17
Circuit Theorems and Conversions
260
50
The Voltage Source
262
2
The Current Source
264
2
Source Conversions
266
3
The Superposition Theorem
269
7
Thevenin's Theorem
276
9
Norton's Theorem
285
3
Maximum Power Transfer Theorem
288
2
Delta-to-Wye (δ-to-Y) and Wye-to-Delta (Y-to-δ) Conversions
290
5
Technology Theory into Practice
295
15
Branch, Mesh, and Node Analysis
310
30
Branch Current Method
312
2
Determinants
314
6
Solving Simultaneous Equations Using a Calculator
320
3
Mesh Current Method
323
4
Node Voltage Method
327
3
Technology Theory into Practice
330
10
Magnetism and Electromagnetism
340
36
The Magnetic Field
342
4
Electromagnetism
346
6
Electromagnetic Devices
352
5
Magnetic Hysteresis
357
2
Electromagnetic Induction
359
4
Applications of Electromagnetic Induction
363
4
Technology Theory into Practice
367
9
Introduction to Alternating Current and Voltage
376
54
The Sine Wave
378
5
Sinusoidal Voltage Sources
383
3
Voltage and Current Values of Sine Waves
386
4
Angular Measurement of a Sine Wave
390
4
The Sine Wave Formula
394
2
Ohm's Law and Kirchhoff's Laws in AC Circuits
396
3
Superimposed DC and AC Voltages
399
2
Nonsinusoidal Waveforms
401
7
Oscilloscope Measurements
408
5
Technology Theory into Practice
413
17
Phasors and Complex Numbers
430
30
Introduction to Phasors
432
5
The Complex Number System
437
4
Rectangular and Polar Forms
441
7
Mathematical Operations
448
5
Technology Theory into Practice
453
7
Capacitors
460
58
The Basic Capacitor
462
7
Types of Capacitors
469
6
Series Capacitors
475
4
Parallel Capacitors
479
2
Capacitors in DC Circuits
481
10
Capacitors in AC Circuits
491
5
Capacitor Applications
496
5
Testing Capacitors
501
3
Technology Theory into Practice
504
14
Inductors
518
40
The Basic Inductor
520
6
Types of Inductors
526
1
Series Inductors
527
1
Parallel Inductors
528
2
Inductors in DC Circuits
530
9
Inductors in AC Circuits
539
5
Inductor Applications
544
2
Testing Inductors
546
1
Technology Theory into Practice
547
11
Transformers
558
40
Mutual Inductance
560
1
The Basic Transformer
561
4
Step-Up Transformers
565
1
Step-Down Transformers
566
1
Loading the Secondary Winding
567
2
Reflected Load
569
2
Matching the Load and Source Resistances
571
3
The Transformer as an Isolation Device
574
2
Nonideal Transformer Characteristics
576
3
Other Types of Transformers
579
5
Troubleshooting Transformers
584
2
Technology Theory into Practice
586
12
RC Circuits
598
64
Series Reactive Circuits
600
1
Sinusoidal Response of RC Circuits
600
1
Impedance and Phase Angle of Series RC Circuits
601
3
Analysis of Series RC Circuits
604
7
Parallel Reactive Circuits
611
1
Impedance and Phase Angle of Parallel RC Circuits
611
3
Analysis of Parallel RC Circuits
614
6
Series-Parallel Reactive Circuits
620
1
Series-Parallel RC Circuits
620
6
Special Topics
626
1
Power in RC Circuits
626
4
Basic Applications
630
11
Troubleshooting
641
3
Technology Theory into Practice
644
18
RL Circuits
662
46
Series Reactive Circuits
664
1
Sinusoidal Response of RL Circuits
664
1
Impedance and Phase Angle of Series RL Circuits
665
2
Analysis of Series RL Circuits
667
5
Parallel Reactive Circuits
672
1
Impedance and Phase Angle of Parallel RL Circuits
672
3
Analysis of Parallel RL Circuits
675
4
Series-Parallel Reactive Circuits
679
1
Series-Parallel RL Circuits
679
4
Special Topics
683
1
Power in RL Circuits
683
4
Basic Applications
687
7
Troubleshooting
694
2
Technology Theory into Practice
696
12
RLC Circuits and Resonance
708
52
Series Reactive Circuits
710
1
Impedance of Series RLC Circuits
710
2
Analysis of Series RLC Circuits
712
4
Series Resonance
716
7
Parallel Reactive Circuits
723
1
Impedance of Parallel RLC Circuits
723
3
Analysis of Parallel RLC Circuits
726
2
Parallel Resonance
728
4
Series-Parallel Reactive Circuits
732
1
Analysis of Series-Parallel RLC Circuits
732
8
Special Topics
740
1
Bandwidth of Resonant Circuits
740
4
Applications
744
4
Technology Theory into Practice
748
12
Basic Filters
760
32
Low-Pass Filters
762
7
High-Pass Filters
769
4
Band-Pass Filters
773
5
Band-Stop Filters
778
3
Technology Theory into Practice
781
11
Circuit Theorems in AC Analysis
792
32
The Superposition Theorem
794
4
Thevenin's Theorem
798
9
Norton's Theorem
807
4
Maximum Power Transfer Theorem
811
3
Technology Theory into Practice
814
10
Pulse Response of Reactive Circuits
824
46
The RC Integrator
826
1
Single-Pulse Response of RC Integrators
827
5
Repetitive-Pulse Response of RC Integrators
832
5
Single-Pulse Response of RC Differentiators
837
5
Repetitive-Pulse Response of RC Differentiators
842
2
Pulse Response of RL Integrators
844
5
Pulse Response of RL Differentiators
849
4
Relationship of Time (Pulse) Response to Frequency Response
853
3
Troubleshooting
856
3
Technology Theory into Practice
859
11
Polyphase Systems in Power Applications
870
30
Basic Polyphase Machines
872
2
Polyphase Generators in Power Applications
874
5
Three-Phase Generators
879
6
Three-Phase Source/Load Analysis
885
6
Three-Phase Power
891
9
Appendix A TAble of Standard Resistor Values
900
1
Appendix B Batteries
901
3
Appendix C Derivations
904
3
Appendix D Capacitor Color Coding
907
1
Answers to Selected Odd-Numbered Problems
908
11
Glossary
919
5
Index
924