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MATLAB : an introduction with applications
Dukkipati, Rao V.
- ISBN:9788122426984
- ISBN:9788122429206
- ISBN:9786612385735
- Call Number : QA 297 .D85 2010
- Main Entry: Dukkipati, Rao V.
- Title:MATLAB : an introduction with applications [electronic resource] / Rao V. Dukkipati.
- Publisher:New Delhi : New Age International (P) Ltd., 2010.
- Physical Description: xiv, 665 p. : ill
- Notes:Description based on print version record
- Notes:Includes bibliographical references and index
- Subject:MATLAB
- Subject:Numerical analysis -- Data processing.
- Reproduction no./Source:238573 MIL
- Additional formats:Print version Dukkipati, Rao V MATLAB New Delhi : New Age International (P) Ltd., c2010 9788122426984
- Preface
- Acknowledgement
- Contents
- Chapter 1. MATLAB Basics
- 1.1 Introduction
- 1.2 Arithmetic Operations
- 1.3 Display Formats
- 1.4 Elementary Math Built-in Functions
- 1.5 Variable Names
- 1.6 Predefined Variables
- 1.7 Commands for Managing Variables
- 1.8 General Commands
- 1.9 Arrays
- 1.10 Operations with Arrays
- 1.11 Element-by-Element Operations
- 1.12 Random Numbers Generation
- 1.13 Polynomials
- 1.14 System of Linear Equations
- 1.15 Script Files
- 1.16 Programming in MATLAB
- 1.17 Graphics
- 1.18 Input/Output in MATLAB
- 1.19 Symbolic Mathematics
- 1.20 The Laplace Transforms
- 1.21 Control Systems
- Summary
- References
- Problems
- Chapter 2. Electrical Circuits
- Chapter 3. Control Systems
- 3.1 Introduction
- 3.2 Control Systems
- 3.3 Examples of Control Systems
- 3.4 Control System Configurations
- 3.5 Control System Terminology
- 3.6 Control System Classes
- 3.7 Feedback Systems
- 3.8 Analysis of Feedback
- 3.9 Control System Analysis and Design Objectives
- 3.10 MATLAB Application
- 3.11 Second-Order Systems
- 3.12 Root Locus Plots
- 3.13 Bode Diagrams
- 3.14 Nyquist Plots
- 3.15 Nichols Chart
- 3.16 Gain Margin, Phase Margin, Phase Crossover, Frequency and Gain Crossover Frequency
- 3.17 Transformation of System Models
- 3.18 Bode Diagrams of Systems Defined in State Space
- 3.19 Nyquist Plots of a System Defined in State Space
- 3.20 Transient-Response Analysis in State Space
- 3.21 Response to Initial Condition in State Space
- 3.22 Example Problems and Solutions
- References
- Problems
- Chapter 4. Numerical Methods
- 4.1 Introduction
- 4.2 System of Linear Algebraic Equations
- 4.3 Gauss Elimination Method
- 4.4 LU Decomposition Methods
- 4.5 Choleski's Decomposition
- 4.6 Gauss-Seidel Method
- 4.7 Gauss-Jordan Method
- 4.8 Jacobi Method
- 4.9 The Householder Factorization
- 4.10 Symmetric Matrix Eigenvalue Problems
- 4.11 Jacobi Method
- 4.12 Householder Reduction to Tridiagonal Form
- 4.13 Sturn Sequence
- 4.14 QR Method
- 4.15 Example Problems and Solutions
- References
- Problems
- Chapter 5. Optimization
- Chapter 6. Direct Numerical Integration Methods
- Chapter 7. Engineering Mechanics
- 7.1 Introduction
- 7.2 Newtonian Mechanics
- 7.3 Newton's Laws of Motion
- 7.4 Resultants of Coplanar Force Systems
- 7.5 Resultants of Non-Coplanar Force Systems
- 7.6 Equilibrium of Coplanar Force Systems
- 7.7 Equilibrium of Non-Coplanar Force System
- 7.8 Trusses
- 7.9 Analysis of Beams
- 7.10 Friction
- 7.11 First Moments and Centroids
- 7.12 Virtual Work
- 7.13 Kinematics of a Particle
- 7.14 D'Alembert's Principle
- 7.15 Kinematics of a Rigid Body in Plane Motion
- 7.16 Moments of Inertia
- 7.17 Dynamics of a Rigid Body in Plane Motion
- 7.18 Work and Energy
- 7.19 Impulse and Momentum
- 7.20 Three-Dimensional Mechanics
- 7.21 Example Problems and Solutions
- References
- Problems
- Chapter 8. Mechanical Vibrations
- 8.1 Introduction
- 8.2 Classification of Vibrations
- 8.3 Elementary Parts of Vibrating Systems
- 8.4 Discrete and Continuous Systems
- 8.5 Vibration Analysis
- 8.6 Components of Vibrating Systems
- 8.7 Free Vibration of Single Degree of Freedom Systems
- 8.8 Forced Vibration of Single-Degree of Freedom Systems
- 8.9 Harmonic Functions
- 8.10 Two-Degree of Freedom Systems
- 8.11 Multi-Degree of Freedom Systems
- 8.12 Free Vibration of Damped Systems
- 8.13 Proportional Damping
- 8.14 General Viscous Damping
- 8.15 Harmonic Excitations
- 8.16 Modal Analysis for Undamped Systems
- 8.17 Lagrange's Equation
- 8.18 Principle of Virtual Work
- 8.19 D' Alembert's Principle
- 8.20 Lagrange's Equations of Motion
- 8.21 Variational Principles
- 8.22 Hamilton's Principle
- 8.23 Example Problems and Solutions
- References
- Problems
- Bibliography
- Index