An introduction to engineering systems.

An Introduction to Engineering Systems discusses important aspects of systems engineering. It provides a background of analytical methods appropriate to hand-solution and computer solutions and shows the correlation that exists in alternate formulation. The book begins with an introduction to models...

Descripción completa

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Seely, Samuel, 1909-1995
Formato: Electrónico eBook
Idioma:Inglés
Publicado: New York : Pergamon Press, [1972]
Colección:Pergamon unified engineering series ; 9.
Temas:
Systems engineering.
Ing�enierie des syst�emes.
systems engineering.
TECHNOLOGY & ENGINEERING > Engineering (General)
TECHNOLOGY & ENGINEERING > Reference.
Systems engineering
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; An Introduction to Engineering Systems; Copyright Page; Preface; Table of Contents; Part I: Models and Modeling; Chapter 1. Modeling of System Elements; 1-1 INTRODUCTION; 1-2 MODEL CHARACTERISTICS; 1-3 MODEL APPROXIMATIONS; 1-4 SIGNALS AND WAVEFORMS; 1-5 INTRODUCTION; 1-6 THE CAPACITOR; 1-7 THE INDUCTOR; 1-8 MUTUAL INDUCTANCE-TRANSFORMERS; 1-9 THE RESISTOR; 1-10 SOURCES; 1-11 DUALITY; 1-12 THE IDEAL MASS ELEMENT; 1-13 THE SPRING; 1-14 THE DAMPER; 1-15 RIGID LINKAGE; 1-16 INDEPENDENT MECHANICAL SOURCES; 1-17 MECHANICAL ELEMENTS-ROTATIONAL; 1-18 LIQUID SYSTEMS.
  • 1-19 LIQUID RESISTANCE1-20 LIQUID CAPACITANCE, INDUCTANCE, AND SOURCES; 1-21 GAS SYSTEMS; 1-22 THERMAL SYSTEMS; 1-23 TRANSDUCERS; 1-24 ACTIVE NETWORKS; 1-25 MODELING OF COMPLICATED SITUATIONS; 1-26 SUMMARY; PROBLEMS; Part II: Interconnected Systems; Chapter 2. Interconnected Systems: Equilibrium Formulations; 2-1 INTERCONNECTED ELEMENTS; 2-2 OPERATIONAL NOTATION; 2-3 THROUGH-ACROSS EQUILIBRIUM LAWS; 2-4 NODE EQUILIBRIUM EQUATIONS; 2-5 LOOP EQUILIBRIUM EQUATIONS; 2-6 INTRODUCTION TO THE STATE FORMULATION; 2-7 STATE EQUATIONS FOR LINEAR SYSTEMS; 2-8 DIFFERENTIAL EQUATIONS IN NORMAL FORM.
  • 2-9 STATE VARIABLE TRANSFORMATION2-10 DISCRETE AND SAMPLED TIME SYSTEMS; PROBLEMS; Chapter 3. Signal Flow Graphs; 3-1 PROPERTIES OF SFG; 3-2 GRAPHING DIFFERENTIAL EQUATIONS; 3-3 SIMULTANEOUS DIFFERENTIAL EQUATIONS; 3-4 THE ALGEBRA OF SFG-s; 3-5 STATE EQUATIONS AND THE SFG; PROBLEMS; Chapter 4. System Geometry and Constraint Equations; 4-1 INTERCONNECTED ELEMENTS; 4-2 GRAPH OF A NETWORK; 4-3 THE CONNECTION MATRIX; 4-4 GENERAL FORM OF TOPOLOGICAL CONSTRAINTS; 4-5 NODE PAIR AND LOOP VARIABLES; 4-6 BRANCH PARAMETER MATRIXES; 4-7 EQUILIBRIUM EQUATIONS ON A NODE-PAIR BASIS.
  • 4-8 EQUILIBRIUM EQUATIONS ON THE LOOP BASIS4-9 THE CANONIC LC NETWORK; 4-10 THE GENERAL LC NETWORK; 4-11 The CANONIC LC NETWORK CONTAINING R; 4-12 THE GENERAL RLC NETWORK; 4-13 DUALITY; PROBLEMS; Part III: System Response; Chapter 5. System Response; 5-1 FEATURES OF LINEAR DIFFERENTIAL EQUATIONS; 5-2 GENERAL FEATURES OF SOLUTIONS OF DIFFERENTIAL EQUATIONS; 5-3 THE COMPLEMENTARY FUNCTION; 5-4 THE PARTICULAR SOLUTION; 5-5 VARIATION OF PARAMETERS; 5-6 EVALUATION OF INTEGRATION CONSTANTS-INITIAL CONDITIONS; 5-7 THE SERIES RL CIRCUIT AND ITS DUAL; 5-8 THE SERIES RL CIRCUIT WITH AN INITIAL CURRENT.
  • 5-9 the series rc circuit and its dual5-10 the series rlc circuit and its dual; 5-11 switching of sinusoidal sources; 5-12 the newton-raphson method; 5-13 numerical solution of differential equations; 5-14 difference equation approximation; 5-15 nonlinear systems; 5-16 various methods for numerical integration (6); 5-17 the operational amplifier; 5-18 computer simulation of differential equations; 5-19 introducing initial conditions; 5-20 time and magnitude scaling of analog computers; 5-21 simulation languages for the digital computer; 5-22 problem oriented languages; problems.

Ejemplares similares