Introduction to Simulink® : with Engineering Applications.

Based on the latest MATLAB® and Simulink® 2011 versions, this edition contains five chapters on engineering applications and 20 appendixes describing all Simulink functional blocks followed by illustrative examples.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Karris, Steven
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Fremont : Orchard Publications, 2011.
Edición:3rd ed.
Temas:
Engineering mathematics > Data processing.
Computer simulation > Computer programs.
Mathématiques de l'ingénieur > Informatique.
Simulation par ordinateur > Logiciels.
Computer simulation > Computer programs
Engineering mathematics > Data processing
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Table of Contents
  • Chapter 1 Introduction to Simulink
  • 1.1 Simulink and its Relation to MATLAB
  • 1.2 Modeling an Electric Circuit
  • 1.3 Modeling a Fourthâ??Order Differential Equation
  • 1.4 Modeling the Solution of Three Equations with Three Unknowns
  • 1.5 Representing a Model as a Subsystem
  • 1.6 Simulink Demos
  • Chapter 2 Mathematical Applications
  • 2.1 Bouncing Ball
  • 2.2 Linear Programming
  • 2.3 Moving Ladder
  • 2.4 Conical Water Reservoir
  • 2.5 Comparison of Alternate Proposals
  • 2.6 Valuation of a Depleting Asset
  • Chapter 3 Dynamics Applications3.1 An Application of Newtonâ€?s Second Law
  • 3.2 Ball Thrown Vertically Upward
  • 3.3 Barge Pulled by Horse Teams
  • 3.4 Rated Speed of an Automobile on a Highway Curve
  • 3.5 Train Traveling on a 3 Per Cent Grade
  • 3.6 Spring with Upper End Fastened to a Rigid Support
  • Chapter 4 Thermodynamics and Fluid Mechanics Applications
  • 4.1 Rise of a Liquid in a Capillary Tube
  • 4.2 An Application of a Simplified Form of the Bernoulli Equation
  • 4.3 Takeoff Speed for an Aircraft
  • 4.4 An Application of the Bulk Modulus
  • 4.5 Calculation of Fluid Flow in an Open ChannelChapter 5 Assortment of Math and Engineering Applications
  • 5.1 Chemical Solutions
  • 5.2 Heat Flow
  • 5.3 Cantilever Beam Deflection
  • 5.4 Tractrix Curve
  • 5.5 Bessel Differential Equation
  • 5.6 Van der Pol Differential Equation
  • 5.7 Simple Pendulum
  • 5.8 Simple Oscillator
  • 5.9 Zeroâ??Order Hold and Firstâ??Order Hold as Reconstructors
  • 5.10 Direct Form Realizations of a Digital Filter
  • 5.11 Series Form Realization of a Digital Filter
  • 5.12 Parallel Form Realization of a Digital Filter
  • 5.13 3â??bit Up / Down Counter5.14 4â??bit Ring Counter
  • 5.15 Massâ??Springâ??Dashpot
  • 5.16 Cascaded Massâ??Spring System
  • 5.17 Mechanical Accelerometer
  • 5.18 Feedback Control Systems
  • 5.19 Electric Circuit in Phasor Form
  • 5.20 Application of the Superposition Principle
  • 5.21 Discrete Time Integration with Variable Amplitude Input
  • 5.22 Sâ??Function Example 1
  • 5.23 Sâ??Function Example 2
  • 5.24 Concluding Remarks
  • Appendix A Introduction to MATLAB®
  • Introduction to MATLAB®
  • A.1 MATLAB® and Simulink®
  • A.2 Command Window
  • A.3 Roots of PolynomialsA.4 Polynomial Construction from Known Roots
  • A.5 Evaluation of a Polynomial at Specified Values
  • A.6 Rational Polynomials
  • A.7 Using MATLAB to Make Plots
  • A.8 Subplots
  • A.9 Multiplication, Division, and Exponentiation
  • A.10 Script and Function Files
  • A.11 Display Formats
  • Appendix B Masked Subsystems
  • B.1 Masks Defined
  • B.2 Advantages Using Masked Subsystems
  • B.3 Mask Features
  • B.4 Creating a Masked Subsystem
  • Appendix C Commonly Used
  • C.1 Inport, Outport, and Subsystem
  • C.2 Ground
  • C.3 Terminator

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