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AEROSPACE ENGINEERING NEW Control Systems 2008 / Softcover / 750 pages ISBN: 978-0-07-066879-9 http://www.mhhe.com/gopal/cs3e (<strong>McGraw</strong>-<strong>Hill</strong> India Title) NEW TO THIS EDITION CONTROL SYSTEMS: Principles and Design Third Edition by M Gopal, Indian Institute of Technology (IIT, Delhi) v Integrated coverage of continuous-time and discrete-time systems. Suitable for two courses on control systems at the undergraduate level. v v v v New chapters on: Digital Control Systems (Ch -11) Nonlinear Systems (Ch - 14) State Variable Design (Ch – 13) v Emphasizes on the frequency-domain design methods using root locus and Nyquist/Bode/Nichol’s plots. v Comprehensive coverage on compensator design (chapters 7 & 10) v Chapter based MATLAB modules on the book’s website SCHAUM’S OUTLINE OF FEEDBACK AND CONTROL SYSTEMS Second Edition by Joseph DiStefano, University of California, Los Angeles; Allen Stubberud, UCLA; Ivan William, TRW Space and Technology 1990 / 572 pages ISBN: 978-0-07-017052-0 / MHID: 0-07-017052-5 A Schaum's Publication CONTENTS 1. Introduction 2. Control Systems Terminology 3. Differential Equations, Difference Equations, and Linear Systems 4. The LaPlace Transform and The Z-Transform 5. Stability 6. Transfer Functions 7. Block Diagram Algebra and Transfer Functions of Systems 8. Signal Flow Graphs 9. System Sensitivity Measures and Classification of Feedback Systems 10. Analysis and Design of Feedback Control Systems: Objectives and Methods 11. Nyquist Analysis 12. Nyquist Design 13. Root-Locus Design 14. Bode Analysis 15. Bode Design 16. Nichols Chart Analysis 17. Nichols Chart Design 18. Introduction to Nonlinear Control Systems 19. Introduction to Advanced Topics in Control Systems Analysis and Design CONTENTS 1. Introduction to Control Problem 2. Dynamic Models and Dynamic Response 3. Model of Industrial Control Devices and Systems 4. Basic Principles of Feedback Control 5. Concept of Stability and Routh Stability Criterion 6. The Performance of Feedback Systems 7. Compensator Designing Using Root Locus Plots 8. The Nyquist Stability Criterion and Stability Marginis 9. Feedback Systems Performance Based on the Frequency Response 10. Compensator Design using Bode Plots 11. Digital Control Systems 12. Control System Analysis using State Variable Methods 13. Control Systems Design using State Variable Methods 14. Nonlinear systems 3
AEROSPACE ENGINEERING NEW Dynamics Chapter 5 Momentum Methods for Particles Chapter 6 Planar Rigid Body Kinematics Chapter 7 Newton-Euler Equations for Planar Rigid Body Motion Chapter 8 Energy and Momentum Methods for Rigid Bodies Chapter 9 Mechanical Vibrations Chapter 10 Three-Dimensional Dynamics of Rigid Bodies Appendix A Mass Moments of Inertia Appendix B Angular Momentum: Advanced Topics ENGINEERING MECHANICS: DYNAMICS by Michael Plesha, University of Wisconsin --- Madison, Gary Gray Penn State Univ-Univ Park, and Francesco Costanzo, Penn State Univ-Univ Park NEW 2010 (March 2009) / Hardcover / 784 pages ISBN: 978-0-07-727554-9 http://www.mhhe.com/plesha Plesha,Gray, and Costanzo’s Engineering Mechanics: Statics & Dynamics presents the fundamental concepts, clearly, in a modern context using applications and pedagogical devices that connect with today’s students. The text features a five-part problem-solving methodology that is consistently used throughout all example problems. This methodology helps students lay out the steps necessary to correct problem-formulation and explains the steps needed to arrive at correct and realistic solutions. Once students have fully mastered the basic concepts, they are taught appropriate use of modern computational tools where applicable. Further reinforcing the text's modern emphasis, the authors have brought engineering design considerations into selected problems where appropriate. This sensitizes students to the fact that engineering problems do not have a single answer and many different routes lead to a correct solution. The first new mainstream text in engineering mechanics in nearly twenty years, Plesha, Gray, and Costanzo’s Engineering Mechanics: Statics and Dynamics will help your students learn this important material efficiently and effectively. FEATURES v 5-Part Problem Solving Methodology used in all example problems. A consistent problem-solving approach is used throughout. Each example problem is solved using a "template" that helps students effectively set up the problem and solve it correctly. v Introduces Appropriate Use of Computational Tools. Fundamental concepts are taught thoroughly, and the use of computational tools is taught when appropriate. v Appropriate Design Coverage. The authors have brought engineering design considerations into selected problems where applicable. This will sensitize students to the fact that engineering problems do not have a single answer and many different routes lead to a correct solution. v Real World Examples, Problems, Applications, Photographs. All the photographs, applications, examples are from the real world, so that students will be able to identify circumstances that they encounter in there daily lives. v Online Homework features selected problems from the text and algorithmically-generated problems that give the instructor a wide array of homework assignment options. CONTENTS Chapter 1 Setting the Stage for the Study of Dynamics Chapter 2 Particle Kinematics Chapter 3 Force and Acceleration Methods for Particles Chapter 4 Energy Methods for Particles ENGINEERING MECHANICS: STATICS AND DYNAMICS by Michael Plesha, University of Wisconsin --- Madison, Gary Gray Penn State Univ-Univ Park, and Francesco Costanzo, Penn State Univ-Univ Park 2010 (March 2009) / Hardcover / 1376 pages ISBN: 978-0-07-730200-9 http://www.mhhe.com/plesha Plesha, Gray, and Costanzo’s Engineering Mechanics: Statics & Dynamics presents the fundamental concepts clearly, in a modern context using applications and pedagogical devices that connect with today’s students. The text features a five-part problem-solving methodology that is consistently used throughout all example problems. This methodology helps students lay out the steps necessary to correct problem-formulation and explains the steps needed to arrive at correct and realistic solutions. Once students have fully mastered the basic concepts, they are taught appropriate use of modern computational tools where applicable. Further reinforcing the text's modern emphasis, the authors have brought engineering design considerations into selected problems where appropriate. This sensitizes students to the fact that engineering problems do not have a single answer and many different routes lead to a correct solution. The first new mainstream text in engineering mechanics in nearly twenty years, Plesha, Gray, and Costanzo’s Engineering Mechanics: Statics and Dynamics will help your students learn this important material efficiently and effectively. FEATURES v 5-Part Problem Solving Methodology used in all example problems. A consistent problem-solving approach is used throughout. Each example problem is solved using a "template" that helps students effectively set up the problem and solve it correctly. v Introduces Appropriate Use of Computational Tools. Fundamental concepts are taught thoroughly, and the use of computational tools is taught when appropriate. v Appropriate Design Coverage. The authors have brought engineering design considerations into selected problems where applicable. This will sensitize students to the fact that engineering problems do not have a single answer and many different routes lead to a correct solution. v Real World Examples, Problems, Applications, Photographs. All the photographs, applications, examples are from the real world, so that students will be able to identify circumstances that they encounter in there daily lives. 4
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