Engineering Circuit Analysis - 5th edition
Engineering Circuit Analysis - 5th edition
ISBN13: 9780070274105
ISBN10: 007027410X
by William H. Jr. Hayt and Jack Kemmerly
Edition: 5TH 93Copyright: 1993
Publisher: McGraw-Hill Publishing Company
Published: 1993
International: No
This title is currently not available in digital format.
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Summary
Well known for its clear explanations, challenging problems, and abundance of drill exercises which effectively instill intuitive understanding in students, the new edition of this best-selling textbook for the sophomore circuits course offers new chapters on state variable analysis, improved coverage of operational amplifiers, new problems using SPICE, and new worked-examples and end-of-chapter problems.
Table of Contents
1. Units, Definitions, Experimental Laws, and Simple Circuits
2. Some Useful Techniques of Circuit Analysis
3. Inductance and Capacitance
4. Source-Free RL and RC Circuits
5. The Application of the Unit-Step Forcing Function
6. The RLC Circuit
7. The Sinusoidal Forcing Function
8. The Phasor Concept
9. The Sinusoidal Steady-State Response
10. Average Power and RMS Values
11. Polyphase Circuits
12. Complex Frequency
13. Frequency Response
14. Magnetically Coupled Circuits
15. Two-Port Networks
16. State-Variable Analysis
17. Fourier Analysis
18. Fourier Transforms
19. Laplace Transform Techniques
Appendixes
shop us with confidence
Well known for its clear explanations, challenging problems, and abundance of drill exercises which effectively instill intuitive understanding in students, the new edition of this best-selling textbook for the sophomore circuits course offers new chapters on state variable analysis, improved coverage of operational amplifiers, new problems using SPICE, and new worked-examples and end-of-chapter problems.
1. Units, Definitions, Experimental Laws, and Simple Circuits
2. Some Useful Techniques of Circuit Analysis
3. Inductance and Capacitance
4. Source-Free RL and RC Circuits
5. The Application of the Unit-Step Forcing Function
6. The RLC Circuit
7. The Sinusoidal Forcing Function
8. The Phasor Concept
9. The Sinusoidal Steady-State Response
10. Average Power and RMS Values
11. Polyphase Circuits
12. Complex Frequency
13. Frequency Response
14. Magnetically Coupled Circuits
15. Two-Port Networks
16. State-Variable Analysis
17. Fourier Analysis
18. Fourier Transforms
19. Laplace Transform Techniques
Appendixes
Published: 1993
International: No
Summary
Well known for its clear explanations, challenging problems, and abundance of drill exercises which effectively instill intuitive understanding in students, the new edition of this best-selling textbook for the sophomore circuits course offers new chapters on state variable analysis, improved coverage of operational amplifiers, new problems using SPICE, and new worked-examples and end-of-chapter problems.
Table of Contents
Table of Contents
1. Units, Definitions, Experimental Laws, and Simple Circuits
2. Some Useful Techniques of Circuit Analysis
3. Inductance and Capacitance
4. Source-Free RL and RC Circuits
5. The Application of the Unit-Step Forcing Function
6. The RLC Circuit
7. The Sinusoidal Forcing Function
8. The Phasor Concept
9. The Sinusoidal Steady-State Response
10. Average Power and RMS Values
11. Polyphase Circuits
12. Complex Frequency
13. Frequency Response
14. Magnetically Coupled Circuits
15. Two-Port Networks
16. State-Variable Analysis
17. Fourier Analysis
18. Fourier Transforms
19. Laplace Transform Techniques
Appendixes
