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E-raamat: Schaum's Outline of Basic Circuit Analysis, Second Edition

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  • Formaat: 432 pages
  • Ilmumisaeg: 17-Feb-2011
  • Kirjastus: Schaum Outline Series
  • Keel: eng
  • ISBN-13: 9780071820554
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Schaum's Outline of Basic Circuit Analysis, Second EditionSuurem pilt
  • Formaat: 432 pages
  • Ilmumisaeg: 17-Feb-2011
  • Kirjastus: Schaum Outline Series
  • Keel: eng
  • ISBN-13: 9780071820554
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The ideal review for your basic circuit analysis course

More than 40 million students have trusted Schaums Outlines for their expert knowledge and helpful solved problems. Written by renowned experts in their respective fields, Schaums Outlines cover everything from math to science, nursing to language. The main feature for all these books is the solved problems. Step-by-step, authors walk readers through coming up with solutions to exercises in their topic of choice.





700 solved problemsOutline format supplies a concise guide to the standard college course in basic circuitsClear, concise explanations of all electric circuits conceptsAppropriate for the following courses: Basic Circuit Analysis, Electrical Circuits, Electrical Engineering Circuit Analysis, Introduction to Circuit Analysis, AC & DC Circuits Supports and supplements the bestselling textbooks in circuitsEasily understood review of basic circuit analysisSupports all the major textbooks for basic circuit analysis courses
Chapter 1 Basic Concepts
1(16)
Digit Grouping
1(1)
International System of Units
1(1)
Electric Charge
1(1)
Electric Current
2(1)
Voltage
3(1)
Dependent Sources
4(1)
Power
5(1)
Energy
5(12)
Chapter 2 Resistance
17(14)
Ohm's Law
17(1)
Resistivity
17(1)
Temperature Effects
18(1)
Resistors
19(1)
Resistor Power Absorption
19(1)
Nominal Values and Tolerances
19(1)
Color Code
20(1)
Open and Short Circuits
20(1)
Internal Resistance
20(11)
Chapter 3 Series And Parallel Dc Circuits
31(23)
Branches, Nodes, Loops, Meshes, Series- and Parallel-Connected Components
31(1)
Kirchhoff's Voltage Law and Series DC Circuits
31(1)
Voltage Division
32(1)
Kirchhoff's Current Law and Parallel DC Circuits
32(2)
Current Division
34(1)
Kilohm-Milliampere Method
34(20)
Chapter 4 Dc Circuit Analysis
54(28)
Cramer's Rule
54(1)
Calculator Solutions
55(1)
Source Transformations
56(1)
Mesh Analysis
56(1)
Loop Analysis
57(1)
Nodal Analysis
58(1)
Dependent Sources and Circuit Analysis
59(23)
Chapter 5 Dc Equivalent Circuits, Network Theorems, And Bridge Circuits
82(30)
Introduction
82(1)
Thevenin's and Norton's Theorems
82(2)
Maximum Power Transfer Theorem
84(1)
Superposition Theorem
84(1)
Millman's Theorem
84(1)
Y-Δ and Δ-Y Transformations
85(1)
Bridge Circuits
86(26)
Chapter 6 Operational Amplifier Circuits
112(24)
Introduction
112(1)
Op-Amp Operation
112(2)
Popular Op-Amp Circuits
114(2)
Circuits with Multiple Operational Amplifiers
116(20)
Chapter 7 Pspice Dc Circuit Analysis
136(17)
Introduction
136(1)
Basic Statements
136(2)
Dependent Sources
138(1)
Dc and Print Control Statements
139(1)
Restrictions
140(13)
Chapter 8 Capacitors And Capacitance
153(21)
Introduction
153(1)
Capacitance
153(1)
Capacitor Construction
153(1)
Total Capacitance
154(1)
Energy Storage
155(1)
Time-Varying Voltages and Currents
155(1)
Capacitor Current
156(1)
Single-Capacitor Dc-Excited Circuits
156(1)
Rc Timers and Oscillators
157(17)
Chapter 9 Inductors, Inductance, And Pspice Transient Analysis
174(20)
Introduction
174(1)
Magnetic Flux
174(1)
Inductance and Inductor Construction
175(1)
Inductor Voltage and Current Relation
175(1)
Total Inductance
176(1)
Energy Storage
177(1)
Single-Inductor Dc--Excited Circuits
177(1)
Pspice Transient Analysis
177(17)
Chapter 10 Sinusoidal Alternating Voltage And Current
194(23)
Introduction
194(1)
Sine and Cosine Waves
195(2)
Phase Relations
197(1)
Average Value
198(1)
Resistor Sinusoidal Response
198(1)
Effective or RMS Values
198(1)
Inductor Sinusoidal Response
199(1)
Capacitor Sinusoidal Response
200(17)
Chapter 11 Complex Algebra And Phasors
217(15)
Introduction
217(1)
Imaginary Numbers
217(1)
Complex Numbers and the Rectangular Form
218(1)
Polar Form
219(2)
Phasors
221(11)
Chapter 12 Basic Ac Circuit Analysis, Impedance, And Admittance
232(33)
Introduction
232(1)
Phasor-Domain Circuit Elements
232(2)
Ac Series Circuit Analysis
234(1)
Impedance
234(2)
Voltage Division
236(1)
Ac Parallel Circuit Analysis
237(1)
Admittance
238(1)
Current Division
239(26)
Chapter 13 Mesh, Loop, Nodal, And Pspice Analyses Of Ac Circuits
265(29)
Introduction
265(1)
Source Transformations
265(1)
Mesh and Loop Analyses
265(2)
Nodal Analysis
267(1)
Pspice Ac Analysis
268(26)
Chapter 14 Ac Equivalent Circuits, Network Theorems, And Bridge Circuits
294(30)
Introduction
294(1)
Thevenin's and Norton's Theorems
294(1)
Maximum Power Transfer Theorem
295(1)
Superposition Theorem
295(1)
Ac Y-Δ and Δ-Y Transformations
296(1)
Ac Bridge Circuits
296(28)
Chapter 15 Power In Ac Circuits
324(25)
Introduction
324(1)
Circuit Power Absorption
324(1)
Wattmeters
325(1)
Reactive Power
326(1)
Complex Power and Apparent Power
326(1)
Power Factor Correction
327(22)
Chapter 16 Transformers
349(35)
Introduction
349(1)
Right-Hand Rule
349(1)
Dot Convention
350(1)
The Ideal Transformer
350(2)
The Air-Core Transformer
352(2)
The Autotransformer
354(2)
Pspice and Transformers
356(28)
Chapter 17 Three-Phase Circuits
384(31)
Introduction
384(1)
Subscript Notation
384(1)
Three-Phase Voltage Generation
384(1)
Generator Winding Connections
385(1)
Phase Sequence
386(1)
Balanced Y Circuit
387(2)
Balanced Δ Load
389(1)
Parallel Loads
390(1)
Power
391(1)
Three-Phase Power Measurements
391(2)
Unbalanced Circuits
393(1)
Pspice Analysis of Three-Phase Circuits
393(22)
Index 415
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