Description
Condition
ACCEPTABLE: The book itself is in VERY GOOD condition, especially considering its age (1966). Because of this age, the pages are beginning to tan, especially along the edges. The original bookstore’s price is stamped in lightly on the front end page, but this is the extent of any evidence of writing. The pages are in excellent condition, with no writing or highlighting. A few pages were turned (dogeared), but they have been straightened out. The cover and spine are in excellent condition, showing the great care this book was given. The only reason this book is rated as ACCEPTABLE is because it is missing its dust jacket.
Product Details
“This material was prepared as a textbook for students in a second-year course in network theory. As such, the book addresses itself to the student who has knowledge of the following topics:
- Classification and characteristics of network elements
- Network input-output relationships; network analysis by KCL, KVL, and network theorems (Thévenin’s, Norton’s, substitution, reciprocity, superposition, source equivalences, etc.)
- Power and Energy in RLC networks; magnitude and phase responses of RLC networks
- Transformers and coupled coils
- Definition and use of singularity functions; the superposition(convolution) integral
- Steady-state solutions by phasor algebra; steady-state and transient solutions by differential equations
- Duality and analogy principles
- Fourier series
- Laplace transformations”—Henry Ruston and Joseph Bordogna, Authors
Chapters include:
Preface
Abbreviations and Symbols
- Introductory Network Concepts
- Network Functions
- Synthesis of Two-element-kind One-port Networks
- Two-port Networks
- Filters
- Methods of Network Analysis
- Lattice Networks
- Network Transmission Characteristics
Appendix 1 Determinants and Matrices
Appendix 2 Solutions of Algebraic Equations and the Hurwitz Test