Aerospace and Mechanical Engineering Books 2015

Aerospace and Mechanical Engineering Books 2015

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Solid Mechanics Engineering

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Thermal Fluids Engineering

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Aerospace Engineering

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Materials Engineering

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Engineering Mathematics and Programming

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Also of Interest

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Information on related journals

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Solid Mechanics Engineering Textbook

Electromechanics and MEMS Thomas B. Jones University of Rochester, New York

and Nenad G. Nenadic Rochester Institute of Technology, New York

Offering a consistent, systematic approach to capacitive, piezoelectric and magnetic MEMS, from basic electromechanical transducers to high-level models for sensors and actuators, this comprehensive textbook equips graduate and senior-level undergraduate students with all the resources necessary to design and develop practical, system-level MEMS models. The concise yet thorough treatment of the underlying principles of electromechanical transduction provides a solid theoretical framework for this development, with each new topic related back to the core concepts. Repeated references to the shared commonalities of all MEMS encourage students to develop a systems-based design perspective. Extensive use is made of easy-to-interpret electrical and mechanical analogs, such as electrical circuits, electromechanical two-port models and the cascade paradigm. Each chapter features worked examples and numerous problems, all designed to test and extend students’ understanding of the key principles. ‘This is an excellent textbook presenting the fundamentals of electromechanics required by every practising MEMS engineer. The authors treat the arduous concepts of coupled electrical and mechanical systems simultaneously with lucidity and a thorough pedagogical rigor that comes from deep appreciation of the field and the love to impart that knowledge as a teacher. The book elucidates the

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concepts with very topical examples of microelectromechanical systems such as MEMS microphones, comb drive actuators, gyroscopes, energy harvesters, and piezoelectric and magnetic devices including Matlab® models and [a] comprehensive set of problems at the end of each chapter.’ Srinivas Tadigadapa, Pennsylvania State University 2013 247 x 174 mm 577pp 345 b/w illus. 20 tables 120 exercises 978-0-521-76483-4 Hardback £54.99 / US$99.99 For all formats available, see

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Dynamics of Multibody Systems Fourth edition Ahmed A. Shabana University of Illinois, Chicago

This fourth edition introduces multibody dynamics with an emphasis on flexible body dynamics. It includes an additional chapter providing explanations for some of the fundamental issues addressed. The book’s wealth of examples and practical applications will be useful to graduate students, researchers and practising engineers working on flexible multibody systems. Contents: 1. Introduction; 2. Reference kinematics; 3. Analytical techniques; 4. Mechanics of deformable bodies; 5. Floating frame of reference formulation; 6. Finite-element formulation; 7. The large deformation problem; 8. Concepts and essential details. 2013 253 x 177 mm 393pp 93 b/w illus. 113 exercises 978-1-107-04265-0 Hardback £75.00 / US$125.00 For all formats available, see

www.cambridge.org/9781107042650

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Solid Mechanics Engineering Textbook

Dynamics Theory and Application of Kane’s Method Carlos M. Roithmayr NASA-Langley Research Center

and Dewey H. Hodges Georgia Institute of Technology

This is a textbook for advanced students in engineering or physics, as well as a reference for professionals interested in deriving equations that govern the motions of mechanical systems. It presents Kane’s method, which is suited for dealing with multibody system. The text analyzes the dynamics of complex spacecraft and robotic devices. Contents: 1. Differentiation of vectors; 2. Kinematics; 3. Constraints; 4. Mass distribution; 5. Generalized forces; 6. Constraint forces, constraint torques; 7. Energy functions; 8. Formulation of equations of motion; 9. Extraction of information from equations of motion; 10. Kinematics of orientation; Problem sets; Appendixes; Direction cosines as functions of orientation angles; Kinematical differential equations in terms of orientation angles; Inertia properties of uniform bodies. 2015 253 x 177 mm 536pp 217 b/w illus. 34 tables 253 exercises 978-1-107-00569-3 Hardback £75.00 / US$135.00 For all formats available, see

www.cambridge.org/9781107005693

Textbook

An Introduction to Continuum Mechanics Second edition J. N. Reddy Texas A & M University

The second edition of this best-selling textbook presents the concepts of continuum mechanics for advanced undergraduates and graduates. It features derivations of the basic equations of mechanics in invariant (vector and tensor) form and specification of governing equations to various co-ordinate systems, and numerous illustrative examples, chapter summaries and exercises. Contents: 1. Introduction; 2. Vectors and tensors; 3. Kinematics of continua; 4. Stress measures; 5. Conservation and balance laws; 6. Constitutive equations; 7. Linearized elasticity; 8. Fluid mechanics and heat transfer; 9. Linearized viscoelasticity. 2013 253 x 177 mm 470pp 216 b/w illus. 9 tables 357 exercises 978-1-107-02543-1 Hardback £50.00 / US$110.00 For all formats available, see

www.cambridge.org/9781107025431

Solid Mechanics Engineering Textbook

Fundamentals of Engineering Plasticity

Ultrasonic Guided Waves in Solid Media Joseph L. Rose

William F. Hosford

Pennsylvania State University

University of Michigan, Ann Arbor

Ultrasonic guided waves in solid media are important in nondestructive testing and structural health monitoring, as new faster, sensitive, and economical ways of looking at materials and structures have become possible. This book can be read by managers from a ‘black box’ point of view, or used as a professional reference or textbook.

William Hosford’s book is ideal for those involved in designing sheet metal forming processes. Knowledge of plasticity is essential for the computer simulation of metal forming processes, and understanding the advances in plasticity theory is key to formulating sound analyses. Includes simplified notations designed for process designers. Contents: 1. An overview of the history of plasticity theory; 2. Yielding; 3. Stress and strain; 4. Isotropic yield criteria; 5. Bounding theorems and work principles; 6. Slip-line field theory; 7. Anisotropic plasticity; 8. Slip and dislocations; 9. Taylor and Bishop and Hill models; 10. Pencil glide calculations of yield loci; 11. Mechanical twinning and Martensitic shear; 12. Effects of strain hardening and strain-rate dependence; 13. Defect analysis; 14. Effects of pressure and sign of stress state; 15. Lower bound analysis; 16. Plasticity tests. 2013 228 x 152 mm 276pp 230 b/w illus. 978-1-107-03755-7 Hardback £45.00 / US$85.00 For all formats available, see

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Contents: Preface; Acknowledgments; 1. Introduction; 2. Dispersion principles; 3. Unbounded isotropic and anisotropic media; 4. Reflection and refraction; 5. Oblique incidence; 6. Waves in plates; 7. Surface and subsurface waves; 8. Finite element method for guided wave mechanics; 9. The semi-analytical finite element method (SAFE); 10. Guided waves in hollow cylinders; 11. Circumferential guided waves; 12. Guided waves in layered structures; 13. Source influence on guided wave excitation; 14. Horizontal shear; 15. Guided waves in anisotropic media; 16. Guided wave phased arrays in piping; 17. Guided waves in viscoelastic media; 18. Ultrasonic vibrations; 19. Guided wave array transducers; 20. Introduction to guided wave nonlinear methods; 21. Guided wave imaging methods; Appendix A: ultrasonic nondestructive testing principles, analysis and display technology; Appendix B: basic formulas and concepts in the theory of elasticity; Appendix C: physically based signal processing concepts for guided waves; Appendix D: guided wave mode and frequency selection tips. 2014 253 x 177 mm 530pp 390 b/w illus. 35 tables 334 exercises 978-1-107-04895-9 Hardback £55.00 / US$99.00 For all formats available, see

www.cambridge.org/9781107048959

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Solid Mechanics Engineering new in paperback

New in Paperback

textbook

Textbook

Continuum Mechanics Constitutive Modeling of Structural and Biological Materials Franco M. Capaldi Merrimack College, Massachusetts

This up-to-date textbook for courses in continuum mechanics provides both the theoretical framework and the numerical methods required to model the behaviour of continuous materials. This text is tailored for advanced undergraduate or first-year graduate students with numerous step-by-step derivations and worked-out examples. Contents: 1. Mathematics; 2. Kinematics; 3. The stress tensor; 4. Introduction to material modeling; 5. Ideal gas; 6. Fluids; 7. Elastic material models; 8. Continuum mixture theory; 9. Growth models; 10. Parameter estimation and curve fitting; 11. Finite element method; 12. Appendix. 2015 254 x 178 mm 358pp 81 b/w illus. 30 tables 978-1-107-48099-5 Paperback £32.99 / US$49.99 Also available 978-1-107-01181-6 Hardback £54.99 / US$104.99 For all formats available, see

www.cambridge.org/9781107480995

Vibration of Mechanical Systems Alok Sinha Pennsylvania State University

This is a brief yet complete textbook for a first course in mechanical vibrations. In this book, all the basic concepts in mechanical vibration are clearly identified and presented in a simple manner with illustrative and practical examples. There are more than sixty exercise problems, and a complete solutions manual. The use of MATLAB® software is emphasized. Contents: 1. Equivalent single degree of freedom system and free vibration; 2. Vibration of a single degree of freedom system under constant and purely harmonic excitation; 3. Responses of a SDOF spring-mass-damper system to periodic and arbitrary forces; 4. Vibration of two degrees of freedom systems; 5. Finite and infinite (continuous) dimensional systems; References; Appendix A; Appendix B; Appendix C. 2014 228 x 152 mm 326pp 225 b/w illus. 2 tables 60 exercises 978-1-107-69417-0 Paperback £40.00 / US$64.99 Also available 978-0-521-51873-4 Hardback £54.99 / US$84.99 For all formats available, see

www.cambridge.org/9781107694170

Thermal Fluids Engineering Textbook

Textbook

Heat Transfer Physics

Fluid Dynamics

Second edition Massoud Kaviany

Peter S. Bernard

University of Michigan, Ann Arbor

This book provides a focused presentation of the physical and mathematical ideas upon which graduate work in fluid mechanics depends. The exposition builds to a selfcontained derivation of the governing equations followed by examples of their application. Numerous opportunities are provided to employ MATLAB® in the study of fluid flows.

This second edition describes atomiclevel kinetics of thermal energy storage, transport, and transformation by principal energy carriers. It includes applications in energy conversion, expanded examples of size effects, inclusion of junction quantum transport, and discussion of graphene and its phonon and electronic conductances. Examples, illustrations, and problems are included. Contents: 1. Introduction and preliminaries; 2. Molecular orbitals/potentials/dynamics and quantum energy states; 3. Carrier energy transport and transformation theories; 4. Phonon energy storage, transport, and transformation kinetics; 5. Electron energy storage, transport, and transformation kinetics; 6. Fluid particle energy storage, transport, and transformation kinetics; 7. Photon energy storage, transport, and transformation kinetics; Appendices A-I. 2014 253 x 177 mm 788pp 388 b/w illus. 72 tables 165 exercises 978-1-107-04178-3 Hardback £75.00 / US$120.00 For all formats available, see

www.cambridge.org/9781107041783

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University of Maryland, College Park

Contents: 1. Introduction; 2. Eulerian and Lagrangian viewpoints, paths and streamlines; 3. Stream function; 4. Helmholtz decomposition; 5. Sources, sinks and vortices; 6. Doublets and their applications; 7. Complex potential; 8. Accelerating reference frames; 9. Fluids at rest; 10. Incompressibility and mass conservation; 11. Stress tensor – existence and symmetry; 12. Stress tensor in Newtonian fluids; 13. Navier–Stokes equation; 14. Thermodynamic considerations; 15. Energy equation; 16. Complete equations of motion; 17. Applications of Bernoulli’s equation and control volumes; 18. Vorticity; 19. Applications to viscous flow; 20. Laminar boundary layers; 21. Some applications to convective heat and mass transfer. 2015 228 x 152 mm 392pp 110 b/w illus. 1 table 142 exercises 978-1-107-07157-5 Hardback £39.99 / US$74.99 Publication May 2015 For all formats available, see

www.cambridge.org/9781107071575

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Thermal Fluids Engineering New in Paperback

Computational Fluid Dynamics Second edition T. J. Chung University of Alabama, Huntsville

In this second edition, the author presents up-to-date treatments of computational methods of fluid dynamics, including finite differences, finite elements, and finite volumes. Physical applications to turbulence, combustion, acoustics, radiative heat transfer, multiphase flow, electromagnetic flow, and general relativity assist the reader in practical use of computational schemes. Homework problems and computer programs demonstrating solutions of all speed regimes are available. Contents: Part I. Preliminaries: 1. Introduction; 2. Governing equations; Part II. Finite Difference Methods: 3. Derivation of finite difference equations; 4. Solution methods of finite difference equations; 5. Incompressible viscous flows via finite difference methods; 6. Compressible flows via finite difference methods; 7. Finite volume methods via finite difference methods; Part III. Finite Element Methods: 8. Introduction to finite element methods; 9. Finite element interpolation functions; 10. Linear problems; 11. Nonlinear problems/convection-dominated flows; 12. Incompressible viscous flows via finite element methods; 13. Compressible flows via finite element methods; 14. Miscellaneous weighted residual methods; 15. Finite volume methods via finite element methods; 16. Relationships between finite differences and finite elements and other methods; Part IV. Automatic Grid Generation, Adaptive Methods and Computing Techniques: 17. Structured grid generation; 18. Unstructured grid generation; 19. Adaptive methods; 20. Computing techniques; Part V. Applications: 21. Applications to turbulence; 22. Applications

to chemically reactive flows and combustion; 23. Applications to acoustics; 24. Applications to combined mode radiative heat transfer; 25. Applications to multiphase flows; 26. Applications to electromagnetic flows; 27. Applications to relativistic astrophysical flows; Appendices. 2014 253 x 177 mm 1055pp 349 b/w illus. 28 tables 32 exercises 978-1-107-42525-5 Paperback £55.00 / US$85.00 Also available 978-0-521-76969-3 Hardback £84.99 / US$169.99 For all formats available, see

www.cambridge.org/9781107425255

Thermal Fluids Engineering

High-Speed Marine Craft One Hundred Knots at Sea Peter J. Mantle

This book details the effort to build a large ship capable of traveling at 100 knots. It is the first book published that summarizes this extensive work from historical and technical perspectives. It will appeal to researchers, graduate students and others interested in naval architecture and propulsion. Contents: 1. The goal of one hundred knots; 2. History of high speed development; 3. The first surface effect ship; 4. History of MARAD ‘large surface effect ship’ program; 5. History of US Navy ‘large surface effect ship’ program; 6. SES-100A and SES-100B test craft and the ‘three thousand ton SES’; 7. Economic considerations; 8. Technical considerations; 9. Navy military operations considerations; 10. The Advanced Naval Vehicles Concepts Evaluation (ANVCE) project; 11. Aerodynamic air cushion craft; 12. Lessons learned and where to next? 2015 253 x 177 mm 656pp 502 b/w illus. 44 tables 978-1-107-09041-5 Hardback £90.00 / US$150.00

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Textbook

Acoustics and Aerodynamic Sound Michael Howe Boston University

This book provides an introductory account of the theory of sound production and propagation and its interactions with solid structures. It includes general theory, diffraction and scattering theory, aerodynamic sound and fluid-structure-acoustic interactions, and a chapter of worked examples. It is intended for courses on acoustics at the advanced undergraduate or graduate level. Contents: 1. Introduction; 2. More on Green’s function; 3. Piston and diffraction problems; 4. Aerodynamic sound; 5. Aperture and duct problems; 6. Solutions of starred problems. 2015 234 x 156 mm 304pp 118 b/w illus. 4 tables 67 exercises 978-1-107-04440-1 Hardback £55.00 / US$99.00 For all formats available, see

www.cambridge.org/9781107044401

Publication August 2015 For all formats available, see

www.cambridge.org/9781107090415

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Thermal Fluids Engineering New in Paperback Textbook

Convective Heat and Mass Transfer S. Mostafa Ghiaasiaan Georgia Institute of Technology

This book is ideal for a graduate course on convection heat and mass transfer. It treats well-established theory and practice but is also enriched by coverage of areas such as flow in microchannels, computational fluid dynamics-based design and analysis methods. Numerous examples, exercises and solutions are included. ‘Throughout the whole book, the author has made large pedagogical efforts in order to help the reader who tries to assimilate the different notions which are presented. The book will be useful for students who want to be acquainted with the thermodynamics of fluid flows and to researchers who will find here a complete survey of this science.’ Alain Brillard, Zentralblatt MATH Contents: 1. Thermophysical and transport fundamentals; 2. Boundary layers; 3. External laminar flow: similarity solutions for forced laminar boundary layers; 4. Internal laminar flow; 5. Integral methods; 6. Fundamentals of turbulence and external turbulent flow; 7. Internal turbulent flow; 8. Effect of transpiration on friction, heat and mass transfer; 9. Analogy among momentum, heat, and mass transfer processes; 10. Natural convection; 11. Mixed convection; 12. Turbulence transport models; 13. Flow and heat transfer in miniature channels; Appendices. 2014 253 x 177 mm 528pp 140 b/w illus. 34 tables 147 exercises 978-1-107-65831-8 Paperback £38.99 / US$65.00 Also available 978-1-107-00350-7 Hardback £109.99 / US$159.99 For all formats available, see

www.cambridge.org/9781107658318

Magnetoconvection N. O. Weiss University of Cambridge

and M. R. E. Proctor University of Cambridge

Here, leading experts present the current state of knowledge of the subject of magnetoconvection: the study of the interplay between magnetic fields and convection. The book covers all aspects of the subject from the viewpoint of applied mathematics, and as a branch of astrophysical (or geophysical) fluid dynamics. Contents: Preface; 1. Introduction; 2. Basic MHD; 3. Linearized Boussinesq magnetoconvection; 4. The nonlinear regime; 5. 2D Boussinesq magnetoconvection; 6. 3D Boussinesq magnetoconvection; 7. Magnetoconvection, rotation and the dynamo; 8. Compressible magnetoconvection; 9. Solar and stellar magnetic fields; Appendix A. The Boussinesq and anelastic approximations; Appendix B. Chaotic systems; Appendix C. Double-diffusive convection; Appendix D. Magnetic buoyancy and the magneto-Boussinesq approximation; References; Index. Cambridge Monographs on Mechanics

2014 247 x 174 mm 432pp 220 b/w illus. 978-0-521-19055-8 Hardback £75.00 / US$120.00 For all formats available, see

www.cambridge.org/9780521190558

Thermal Fluids Engineering New in Paperback

Heat Transfer Gregory Nellis University of Wisconsin, Madison

and Sanford Klein University of Wisconsin, Madison

Providing engineers with the tools to solve real-world heat transfer problems, this textbook includes advanced topics not covered in other books on the subject. Examples are complex and timely problems that are inherently interesting. It integrates Maple, MATLAB®, FEHT and Engineering Equation Solver (EES) directly with the heat transfer material. Review of the hardback: ‘… this book significantly raises the bar for heat transfer text books. Further, the integration of theory with computational tools makes the book of high interest at the professional level. Readers are encouraged to go to the website and explore this book and the supporting materials in depth … a major contribution to education in the field of heat transfer.’ Journal of Heat Transfer Engineering Contents: 1. One-dimensional, steady-state conduction; 2. Two-dimensional, steadystate conduction; 3. Transient conduction; 4. External forced convection; 5. Internal forced convection; 6. Natural convection; 7. Boiling and condensation; 8. Heat exchangers; 9. Mass transfer; 10. Radiation.

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Adhesive Particle Flow A Discrete-Element Approach Jeffery S. Marshall University of Vermont

and Shuiqing Li Tsinghua University, Beijing

Adhesive Particle Flow offers a comprehensive treatment of adhesive particle flows at the particle level. This book adopts a particle-level approach oriented toward directly simulating the various fluid, electric field, collision, and adhesion forces and torques acting on the particles, within the framework of a discrete-element model. Contents: 1. Introduction; 2. Modeling viewpoints and approaches; 3. Contact mechanics without adhesion; 4. Adhesion forces; 5. Fluid forces on particles; 6. Particle dispersion in turbulent flows; 7. Ellipsoidal particles; 8. Particle interactions with electric and magnetic fields; 9. Nanoscale particle dynamics; 10. Computer implementation and data analysis; 11. Applications. 2014 253 x 177 mm 355pp 208 b/w illus. 11 tables 978-1-107-03207-1 Hardback £85.00 / US$135.00 For all formats available, see

www.cambridge.org/9781107032071

2012 253 x 177 mm 1134pp 545 b/w illus. 45 tables 978-1-107-67137-9 Paperback £69.99 / US$99.99 Also available 978-0-521-88107-4 Hardback £89.99 / US$189.99 For all formats available, see

www.cambridge.org/9781107671379

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Thermal Fluids Engineering

Advanced Computational Vibroacoustics Reduced-Order Models and Uncertainty Quantification Roger Ohayon Conservatoire National des Arts et Métiers (CNAM), Paris

and Christian Soize Université Paris-Est

This book presents an advanced computational method for the prediction of sound and structural vibrations, complex structural acoustics and fluid-structure interaction systems encountered in aerospace, automotive, railway, naval, and energy-production industries. Written for the global market, it is an invaluable resource for researchers, students, and engineers. Contents: 1. Principal objectives and a strategy for modeling vibroacoustic systems; 2. Definition of the vibroacoustic system; 3. External inviscid acoustic fluid equations; 4. Internal dissipative acoustic fluid equations; 5. Structure equations; 6. Vibroacoustic boundary-value problem; 7. Computational vibroacoustic model; 8. Reduced-order computational model; 9. Uncertainty quantification in computational vibroacoustics; 10. Symmetric BEM without spurious frequencies for the external acoustic fluid. 2014 234 x 156 mm 136pp 16 b/w illus. 978-1-107-07171-1 Hardback £60.00 / US$95.00 For all formats available, see

www.cambridge.org/9781107071711

Textbook

An Introduction to Fluid Mechanics Faith A. Morrison Michigan Technological University

This is a modern and elegant introduction to engineering fluid mechanics enriched with numerous examples, exercises and applications. We delve deeply into the mathematical analysis of flows on the basis that such analysis is essential to designing and optimising modern systems and devices. Contents: Part I. Preparing to Study Flow: 1. Why study fluid mechanics?; 2. How fluids behave; Part II. The Physics of Flow: 3. Modeling fluids; 4. Molecular fluid stresses; 5. Stress-velocity relationships; Part III. Flow Field Calculations: 6. Microscopic balance equations; 7. Internal flows; 8. External flows; Part IV. Advanced Flow Calculations: 9. Macroscopic balance equations; 10. How fluids behave (redux); Part V. Appendices: A. Glossary; B. Mathematics appendix; C. Supplemental mathematics appendix; D. Special topics. 2013 253 x 177 mm 940pp 520 b/w illus. 40 tables 500 exercises 978-1-107-00353-8 Hardback £74.99 / US$134.99 For all formats available, see

www.cambridge.org/9781107003538

Aerospace Engineering Fundamentals of Aerospace Navigation and Guidance Pierre T. Kabamba University of Michigan, Ann Arbor

and Anouck R. Girard University of Michigan, Ann Arbor

Fundamentals of Aerospace Navigation and Guidance covers fundamentals used in the navigation and guidance of modern aerospace vehicles, in both atmospheric and space flight. It can be used as a textbook supporting a graduate level course on aerospace navigation and guidance or as a resource for practicing engineers and researchers. Contents: 1. Introduction; 2. Deterministic systems theory; 3. Stochastic systems theory; 4. Navigation; 5. Homing guidance; 6. Ballistic guidance; 7. Midcourse guidance; 8. Optimization; 9. Optimal guidance; 10. Introduction to differential games; Epilogue; A. Useful definitions and mathematical results; A.1. Results from topology; A.2. Results from linear algebra; A.3. Taylor’s theorem; A.4. Newton’s method; A.5. The implicit function theorem.

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Textbook

Mechanics of Aero-structures Sudhakar Nair Illinois Institute of Technology

Mechanics of Aero-structures is a concise textbook for students of aircraft structures, which covers aircraft loads, torsion and bending of single cell, multicell and open thin-walled structures. Static structural stability, energy methods, and aero-elastic instability are discussed. Examples and exercises are included to enhance the students’ facility with structural analysis. Contents: 1. Aircraft structural components and loads; 2. Elements of elasticity; 3. Energy methods; 4. Torsion; 5. Bending; 6. Stability of structures; 7. Failure theories. 2015 228 x 152 mm 280pp 172 b/w illus. 5 tables 105 exercises 978-1-107-07577-1 Hardback £39.99 / US$99.99 For all formats available, see

www.cambridge.org/9781107075771

Cambridge Aerospace Series, 40

2014 253 x 177 mm 334pp 121 b/w illus. 115 exercises 978-1-107-07094-3 Hardback £75.00 / US$135.00 For all formats available, see

www.cambridge.org/9781107070943

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Aerospace Engineering New in Paperback

New in Paperback

Textbook

Textbook

Principles of Turbomachinery in Air-Breathing Engines

Introduction to Structural Dynamics and Aeroelasticity

Erian A. Baskharone

Second edition Dewey H. Hodges

Texas A & M University

This book is ideal for anyone interested in turbomachinery or aerospace propulsion, beginning with a review of basic thermodynamics and fluid mechanics principles for the reader who will face design decisions in the gas turbine industry. The text is fully supported by over two hundred figures, numerous examples and homework problems. Contents: 1. Introduction to gas turbine engines; 2. Overview of turbomachinery nomenclature; 3. Aerothermodynamics of turbomachines; 4. Energy transfer between a fluid and a rotor; 5. Dimensional analysis, maps and specific speed; 6. Radial equilibrium theory; 7. Polytropic (small-stage) efficiency; 8. Axial-flow turbines; 9. Axial-flow compressors; 10. Radial inflow turbines; 11. Centrifugal compressors; 12. Turbine-compressor matching. Cambridge Aerospace Series, 18

2014 253 x 177 mm 600pp 978-1-107-41740-3 Paperback £38.99 / US$59.99 Also available 978-0-521-85810-6 Hardback £104.99 / US$184.99 For all formats available, see

www.cambridge.org/9781107417403

Georgia Institute of Technology

and G. Alvin Pierce Georgia Institute of Technology

This text introduces structural dynamics and aeroelasticity, emphasizing conventional aircraft. It considers structural dynamics, static aeroelasticity and dynamic aeroelasticity. Aeroelastic phenomena discussed include divergence, aileron reversal, airload redistribution, unsteady aerodynamics, flutter and elastic tailoring. More than fifty problems enhance student learning. From the previous edition: ‘Wonderfully written and full of vital information by two unequalled experts on the subject, this text meets the need for an up-to-date treatment of structural dynamics and aeroelasticity for advanced undergraduate or beginning graduate aerospace engineering students.’ Current Engineering Practice Contents: 1. Introduction; 2. Mechanics fundamentals; 3. Structural dynamics; 4. Static aeroelasticity; 5. Aeroelastic flutter. Cambridge Aerospace Series, 15

2014 254 x 178 mm 272pp 121 b/w illus. 19 tables 73 exercises 978-1-107-61709-4 Paperback £27.99 / US$42.99 Also available 978-0-521-19590-4 Hardback £54.99 / US$104.99 For all formats available, see

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Aerospace Engineering

Gas Turbine Emissions Edited by Tim C. Lieuwen Georgia Institute of Technology

and Vigor Yang Georgia Institute of Technology

The development of clean, sustainable energy systems is a pre-eminent issue in our time. Gas turbines will continue to be important combustion-based energy conversion devices for many decades to come, used for aircraft propulsion, ground-based power generation, and mechanical-drive applications. This book compiles the key scientific and technological knowledge associated with gas turbine emissions into a single authoritative source. Contents: Foreword; Part I. Overview and Key Issues: 1. Aero gas turbine combustion: metrics, constraints, and system interactions; 2. Ground based gas turbine combustion: metrics, constraints, and system interactions; 3. Overview of worldwide aircraft regulatory framework; 4. Overview of worldwide ground-based regulatory framework; Part II. Fundamentals and Modeling: Production and Control: 5. Particulate formation; 6. Gaseous aerosol precursors; 7. NOx and CO formation and control; 8. Emissions from oxyfueled or high exhaust gas recirculation turbines; Part III. Case Studies and Specific Technologies: Pollutant Trends and Key Drivers: 9. Partially premixed and premixed aeroengine combustors; 10. Industrial combustors: conventional, non-premixed, and dry low emissions (DLN).

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Probability-Based Structural Fire Load Leo Razdolsky LR Structural Engineering, Inc., Chicago

Probability-Based Structural Fire Load introduces the subject of probabilistic analysis to engineers and can also act as a reference to guide those applying this technology. In addition to providing an understanding of how fire affects structures, this book provides guidance for design professionals and is a resource for educators. Contents: 1. Introduction; 2. Introduction to probability theory; 3. Random processes; 4. Very fast fire severity: probabilistic structural fire-resistance design; 5. Fast fire and life-cycle cost analysis; 6. Medium fire severity and thermal-diffusivity analysis; 7. Slow fire severity and structural analysis and design. 2014 253 x 177 mm 350pp 88 b/w illus. 48 tables 90 exercises 978-1-107-03874-5 Hardback £85.00 / US$145.00 For all formats available, see

www.cambridge.org/9781107038745

Cambridge Aerospace Series, 38

2013 253 x 177 mm 382pp 212 b/w illus. 25 tables 978-0-521-76405-6 Hardback £75.00 / US$125.00 For all formats available, see

www.cambridge.org/9780521764056

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Aerospace Engineering

Smart Structures Theory Inderjit Chopra University of Maryland, College Park

and Jayant Sirohi University of Texas, Austin

Smart materials and structures are also referred to as intelligent, adaptive, active, sensory and metamorphic. This book presents our goal to develop biologically inspired multifunctional materials with the capability to adapt their structural characteristics, monitor their health condition, perform selfdiagnosis and self-repair, morph their shape and undergo significant controlled motion. Contents: 1. Introduction; 2. Piezos; 3. SMA; 4. Beams; 5. Plates; 6. Magnetostrictives and electrostrictives; 7. ERMR; 8. Applications. Cambridge Aerospace Series, 35

2014 253 x 177 mm 920pp 524 b/w illus. 59 tables 978-0-521-86657-6 Hardback £85.00 / US$155.00 For all formats available, see

www.cambridge.org/9780521866576

The Finite Element Method with Heat Transfer and Fluid Mechanics Applications Erian A. Baskharone Texas A & M University

This book is intended for advanced undergraduate and graduate students. The first four chapters are devoted to the introduction of the finite element concept. The focus of the book then covers two essential areas – heat transfer and fluid mechanics: topics with different finite element formulations. Contents: 1. The finite element method: introductory remarks; 2. Some methods for solving continuum problems; 3. Variational approach; 4. Requirements for the interpolation functions; 5. Heat transfer applications; 6. Onedimensional steady-state problems; 7. The twodimensional heat conduction problem; 8. Threedimensional heat conduction applications; 9. One-dimensional transient problems; 10. Fluid mechanics finite-element applications; 11. Use of nodeless degrees of freedom; 12. Finite element analysis in curvilinear coordinates; 13. Finite element modeling in annular passages; 14. Extracting the F.E. domain from a larger flow system; 15. Finite element application to unsteady flow problems; 16. F.E.-based perturbation approach to unsteady flows. 2013 253 x 177 mm 387pp 211 b/w illus. 5 tables 978-1-107-03981-0 Hardback £75.00 / US$135.00 For all formats available, see

www.cambridge.org/9781107039810

Aerospace Engineering

Nonlinear Structural Dynamics Using FE Methods James F. Doyle Purdue University, Indiana

This book will be useful to students and practising engineers, giving them a richer understanding of their trade and accelerating learning on new problems. Independent workers will find access to advanced topics presented in an accessible manner. Contents: Notation; Introduction; Part I. Mechanics and Models: 1. Dynamics of simple elastic systems; 2. Dynamics of discretized systems; 3. Modeling elastic structures; 4. Modeling applied loads; 5. Computational methods; Part II. Dynamic Analyses: 6. Modal analysis of large systems; 7. Vibration of rods and beams; 8. Vibration of plates and shells; 9. Wave propagation; 10. Stability of motion; Project level problem set; References; Index. 2015 253 x 177 mm 623pp 522 b/w illus. 18 tables 113 exercises 978-1-107-04570-5 Hardback £75.00 / US$135.00 For all formats available, see

www.cambridge.org/9781107045705

17

Textbook

Applied Computational Aerodynamics A Modern Engineering Approach Russell M. Cummings United States Air Force Academy

William H. Mason Virginia Polytechnic Institute and State University

Scott A. Morton University of Dayton Research Institute

and David R. McDaniel University of Alabama, Birmingham

This computational aerodynamics (CA) textbook is written at the undergraduate level and focuses on developing the engineering skills required to become an intelligent user of aerodynamic simulation codes. This is done by taking advantage of CA codes that are now available and doing projects to learn the basic numerical and aerodynamic concepts. Contents: 1. Introduction to computational aerodynamics; 2. Computers, codes, and engineering; 3. Getting ready for computational aerodynamics: fluid-mechanics foundations; 4. Getting ready for computational aerodynamics: aerodynamics concepts; 5. Classical linear-theory computational aerodynamics; 6. Introduction to computational fluid dynamics; 7. Geometry and grids: a key consideration in computational aerodynamics; 8. Viscosity and turbulence modeling in computational aerodynamics; 9. Flow visualization: the art of computational aerodynamics; 10. Applications of computational aerodynamics; Appendix A: geometry for aerodynamicists; Appendix B: sources of aerodynamic data for code validation; Appendix C: potential-flow review; Appendix D: computational aerodynamics programs; Appendix E: structured grid transformations; Appendix F: commonly used turbulence models. Cambridge Aerospace Series

2015 253 x 177 mm 896pp 641 b/w illus. 25 tables 49 exercises 978-1-107-05374-8 Hardback £75.00 / US$125.00 Publication June 2015 For all formats available, see

www.cambridge.org/9781107053748

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18

Materials Engineering Textbook

Biological Materials Science Biological Materials, Bioinspired Materials, and Biomaterials Marc André Meyers University of California, San Diego

and Po-Yu Chen National Tsing Hua University, Taiwan

Taking a materials science approach, this book correlates structure-property relationships with function across a range of biological materials. Biopolymers, bioelastomers, forms, and ceramic composites are covered, and basic concepts are applied to biomimetics. Solved examples and endof-chapter exercises are provided in the book, with solutions and PowerPoint figures available online. ‘The union of the physical and biological sciences is in many respects one of the most exciting yet challenging aspects of scientific endeavor today. Nowhere is this more in evidence than in the area of biological materials science and engineering where many materials scientists struggle with the complex puzzle of biological form and function while biologists in turn have to deal with the invariably highly quantitative nature of the physical sciences and engineering. With this book, Meyers and Chen have delivered a true tour de force which takes the reader in clear and precise text from cells to virusproduced Li-ion batteries. This book is a must read for undergraduates, graduates and researchers alike in the rapidly expanding fields of biological, bioinspired and biomaterials science.’ Robert Ritchie, Lawrence Berkeley National Laboratory Contents: 1. Evolution of materials science and engineering: from natural to bioinspired materials; Part I. Basic Biology Principles: 2. Self assembly, hierarchy, and evolution; 3. Basic building blocks; 4. Cells; 5. Biomineralization;

Part II. Biological Materials: 6. Silicate and calcium carbonate-based composites; 7. Calcium phosphate-based composites; 8. Biological polymers and polymer composites; 9. Biological elastomers; 10. Biological foams (porous solids); 11. Functional biological materials; Part III. Bioinspired Materials and Biomimetics: 12. Bioinspired materials; 13. Molecular-based biomimetics. 2014 246 x 189 mm 644pp 472 b/w illus. 10 tables 150 exercises 978-1-107-01045-1 Hardback £60.00 / US$99.00 For all formats available, see

www.cambridge.org/9781107010451

Materials Engineering

Problems for Biomedical Fluid Mechanics and Transport Phenomena

Fundamentals and Applications of Microand Nanofibers

Mark Johnson

Behnam Pourdeyhimi

Northwestern University, Illinois

and C. Ross Ethier Georgia Institute of Technology

This unique resource offers over two hundred biomedical engineering problems for classroom teaching, homework assignments, quiz material and exam questions. Covering fluid mechanics, mass transfer and heat transfer applications, it helps the student determine which principles to apply and how. Solutions are available to instructors online. Contents: Preface; 1. Problem solving; 2. Conservation of mass and the Reynolds Transport Theorem; 3. Steady and unsteady Bernoulli and momentum conservation; 4. Viscous flow; 5. Momentum boundary layers; 6. Piping systems, friction factors and drag coefficients; 7. Problems involving surface tension; 8. Non-Newtonian blood flow; 9. Dimensional analysis; 10. Statistical mechanics; 11. Steady diffusion and conduction; 12. Unsteady diffusion and conduction; 13. Convection of mass and heat; 14. Concentration and thermal boundary layers; 15. Mass and heat transfer coefficients; 16. Osmotic pressure; Appendix A. Material properties; Appendix B. Transport equations; Appendix C. Charts; References; Acknowledgements. Cambridge Texts in Biomedical Engineering

2014 228 x 152 mm 181pp 136 b/w illus. 3 tables 190 exercises 978-1-107-03769-4 Hardback £60.00 / US$95.00 For all formats available, see

www.cambridge.org/9781107037694

Alexander L. Yarin University of Illinois, Chicago North Carolina State University

and Seeram Ramakrishna National University of Singapore

A comprehensive exposition of micro and nanofiber forming, this text provides a unified framework of these processes (melt and solution blowing, electrospinning, and so on) and describes their foundations, development and applications. Ideal for researchers, engineers and graduate students interested in formation of micro and nanofibers and their use in functional smart materials. ‘Many new, imaginative and important technological and biomaterial applications of fibers are being built upon information presented in this comprehensive, authoritative and enabling book.’ Darrell H. Reneker, University of Akron, Ohio Contents: 1. Introduction; 2. Polymer physics and rheology; 3. General quasi-one-dimensional equations of dynamics of free liquid jets. Capillary and bending instability; 4. Melt and solution blowing; 5. Electrospinning of micro and nanofibers; 6. Additional methods and materials used to form micro and nanofibers; 7. Tensile properties of micro and nanofibers; 8. Post-processing; 9. Applications of micro and nanofibers; 10. Military applications of micro and nanofibers; 11. Applications of micro and nanofibers and micro and nanoparticles: healthcare, nutrition, drug delivery and personal care. 2014 247 x 174 mm 453pp 274 b/w illus. 19 tables 978-1-107-06029-6 Hardback £65.00 / US$99.00 For all formats available, see

www.cambridge.org/9781107060296

19

Engineering Mathematics & Programming Textbook

Optimization Models Giuseppe C. Calafiore Politecnico di Torino

and Laurent El Ghaoui University of California, Berkeley

Emphasizing practical understanding over the technicalities of specific algorithms, this elegant textbook teaches students how to recognize, simplify, model and solve optimization problems – and apply these basic principles to their own projects. Accompanied by an online solution manual, accessible only to instructors. ‘In Optimization Models, Calafiore and El Ghaoui have created a beautiful and very much needed on-ramp to the world of modern mathematical optimization and its wide range of applications. They lead an undergraduate, with not much more than basic calculus behind her, from the basics of linear algebra all the way to modern optimization-based machine learning, image processing, control, and finance, to name just a few applications. Until now, these methods and topics were accessible only to graduate students in a few fields, and the few undergraduates who brave the daunting prerequisites. The book’s seamless integration of mathematics and applications, and its focus on modeling practical problems and algorithmic solution methods, will be very appealing to a wide audience.’ Stephen Boyd, Stanford University Contents: 1. Introduction; Part I. Linear Algebra: 2. Vectors; 3. Matrices; 4. Symmetric matrices; 5. Singular value decomposition; 6. Linear equations and least-squares; 7. Matrix algorithms; Part II. Convex Optimization: 8. Convexity; 9. Linear, quadratic and geometric models; 10. Second-order

cone and robust models; 11. Semidefinite models; 12. Introduction to algorithms; Part III. Applications: 13. Learning from data; 14. Computational finance; 15. Control problems; 16. Engineering design. 2014 246 x 189 mm 650pp 352 b/w illus. 126 exercises 978-1-107-05087-7 Hardback £48.00 / US$69.99 For all formats available, see

www.cambridge.org/9781107050877

Engineering Mathematics and Programming Textbook

Optimization in Practice with MATLAB® For Engineering Students and Professionals Achille Messac Mississippi State University

This textbook is designed for undergraduate and graduate students and practitioners interested in learning optimization. The presentation is enriched with a robust set of real-world examples and practical exercises. Using MATLAB® software is encouraged throughout. The instructor is supported by a complete solutions manual and PowerPoint slides with animations. Contents: Part I. Helpful Preliminaries: 1. MATLAB® as a computational tool; 2. Mathematical preliminaries; Part II. Using Optimization – the Road Map: 3. Welcome to the fascinating world of optimization; 4. Analysis, design, optimization, and modeling; 5. Introducing linear and nonlinear programming; Part III. Using Optimization – Practical Essentials: 6. Multiobjective optimization; 7. Numerical essentials; 8. Global optimization basics; 9. Discrete optimization basics; 10. Practicing optimization – larger examples; Part IV. Going Deeper: Inside the Codes and Theoretical Aspects: 11. Linear programming; 12. Nonlinear programming with no constraints; 13. Nonlinear programming with constraints; Part V. More Advanced Topics in Optimization: 14. Discrete optimization; 15. Modeling complex systems: surrogate modeling and design space reduction; 16. Design optimization under uncertainty; 17. Methods for Pareto frontier generation/ representation; 18. Physical programming for multiobjective optimization; 19. Evolutionary algorithms. 2015 253 x 177 mm 494pp 159 b/w illus. 61 tables 191 exercises 978-1-107-10918-6 Hardback £45.00 / US$99.00 For all formats available, see

www.cambridge.org/9781107109186

New in Paperback

Introduction to Finite Element Vibration Analysis Second edition Maurice Petyt University of Southampton

An introduction to the mathematical basis of finite element analysis as applied to vibrating systems. Finite element analysis is a technique that is very important in modeling the response of structures to dynamic loads and is widely used in aeronautical, civil, and mechanical engineering as well as naval architecture. Contents: 1. Formulation of the equations of motion; 2. Element energy functions; 3. Introduction to the finite element displacement method; 4. In-plane vibration of plates; 5. Vibration of solids; 6. Flexural vibration of plates; 7. Vibration of stiffened plates and folded plate structures; 8. Vibration of shells; 9. Vibration of laminated plates and shells; 10. Hierarchical finite element method; 11. Analysis of free vibration; 12. Forced response; 13. Forced response II; 14. Computer analysis technique. 2015 254 x 178 mm 518pp 235 b/w illus. 90 tables 103 exercises 978-1-107-50735-7 Paperback £36.99 / US$55.99 Also available 978-0-521-19160-9 Hardback £99.99 / US$164.99 For all formats available, see

www.cambridge.org/9781107507357

21

22

Engineering Mathematics and Programming

Variational Methods with Applications in Science and Engineering

Methods of Applied Mathematics for Engineers and Scientists

Kevin W. Cassel

Tomas B. Co

Illinois Institute of Technology

Michigan Technological University

There is a resurgence of applications for the calculus of variations, such as in solid mechanics and dynamics, numerical methods, numerical grid generation, modern physics, various optimization settings and fluid dynamics. This book reflects the connection between calculus of variations and the applications for which variational methods form the foundation.

Co has written an engineering mathematics textbook, rich with examples, applications and exercises that use analytical approaches to solve smaller problems and numerical methods for complex problems. The book emphasises applying matrices with strong attention to matrix structure and computational issues. MATLAB® implementations and concepts are fully integrated.

‘The current book is an attractive fresh look at the subject by a professor of mechanical and aerospace engineering … Most chapters have a modest number of exercises. There is a very nice bibliography.’ Bill Satzer, MAA Reviews Contents: 1. Preliminaries; 2. Calculus of variations; 3. Rayleigh-Ritz, Galerkin, and finite-element methods; 4. Hamilton’s principle; 5. Classical mechanics; 6. Stability of dynamical systems; 7. Optics and electromagnetics; 8. Modern physics; 9. Fluid mechanics; 10. Optimization and control; 11. Image processing and data analysis; 12. Numerical grid generation. 2013 253 x 177 mm 432pp 112 b/w illus. 12 tables 108 exercises 978-1-107-02258-4 Hardback £65.00 / US$99.00 For all formats available, see

www.cambridge.org/9781107022584

‘This outstanding book will join other esteemed works that are permanently on my shelf … The target readers encompass graduate students and researchers, as the book treats advanced concepts that are complementary to those of undergraduate textbooks. Throughout the book, software is expressed in MATLAB®. Its matrix orientation makes it the ideal choice … its scope, depth, style, and relevance engender my strongest recommendation.’ George Hacken, Computing Reviews Contents: 1. Matrix algebra; 2. Solution of multiple equations; 3. Matrix analysis; 4. Vectors and tensors; 5. Integral theorems; 6. Ordinary differential equations: analytical solutions; 7. Numerical solution of initial and boundary value problems; 8. Qualitative analysis of ordinary differential equations; 9. Series solutions of linear ordinary differential equations; 10. First order partial differential equations and the method of characteristics; 11. Linear partial differential equations; 12. Integral transform methods; 13. Finite difference methods; 14. Method of finite elements. 2013 253 x 177 mm 582pp 176 b/w illus. 52 tables 298 exercises 978-1-107-00412-2 Hardback £75.00 / US$135.00 For all formats available, see

www.cambridge.org/9781107004122

Engineering Mathematics and Programming

Mathematical Methods in Engineering Joseph M. Powers University of Notre Dame, Indiana

and Mihir Sen University of Notre Dame, Indiana

This book is designed for engineering graduate students. It connects mathematics to a variety of methods used for engineering problems by walking the reader stepwise through examples that have been worked in detail, followed by numerous homework problems to reinforce learning and connect the subject matter to engineering applications. Contents: 1. Multivariable calculus; 2. Vectors and tensors in Cartesian coordinates; 3. Firstorder ordinary differential equations; 4. Linear ordinary differential equations; 5. Approximation methods; 6. Linear analysis; 7. Linear algebra; 8. Linear integral equations; 9. Dynamical systems. 2015 253 x 177 mm 633pp 225 b/w illus. 479 exercises 978-1-107-03704-5 Hardback £65.00 / US$120.00 For all formats available, see

www.cambridge.org/9781107037045

23

Robot-Oriented Design Design and Management Tools for the Deployment of Automation and Robotics in Construction Thomas Bock Technische Universität München

and Thomas Linner Technische Universität München

The Cambridge Handbooks on Construction Robotics series focuses on the implementation of automation and robot technology to renew the construction industry. Robot-Oriented Design introduces the design, innovation and management methodologies that are key to the realization and implementation of the advanced concepts and technologies presented in the subsequent volumes. Contents: 1. Advanced construction and building technology; 2. The structure of this volume; 3. The role of complementarity of products, organization, information, and machine technology; 4. Introduction of relevant terms, concepts, and technologies; 5. Complex products in other industries and relevance of fixed-site/ONM technology; 6. Synchronization of organization, building structure, and manufacturing technology by robot-oriented design; 7. Utilizing innovation science to develop and deploy automated/ robotic systems in construction; 8. Competitive advantage by coadapting and taking products and manufacturing systems further. 2015 253 x 177 mm 352pp 167 b/w illus. 145 colour illus. 34 tables 978-1-107-07638-9 Hardback £85.00 / US$135.00 Publication May 2015 For all formats available, see

www.cambridge.org/9781107076389

Visit our website at www.cambridge.org/engineering

24

Engineering Mathematics and Programming

Site Automation Automated/Robotic On-Site Factories Thomas Bock Technische Universität München

and Thomas Linner Technische Universität München

The Cambridge Handbooks on Construction Robotics series focuses on the implementation of automation and robot technology to renew the construction industry. Site Automation extends the new technology of robotics in building-component manufacturing and construction introduced in earlier volumes to on-site structured environments and on-site automated factories. Contents: 1. Integrated automated/robotic on-site factories; 2. Analysis and categorization: construction; 3. Analysis and categorization: deconstruction; 4. Conclusion: discrepancy between technical capability and efficiency. 2015 253 x 177 mm 375pp 463 b/w illus. 9 tables 978-1-107-07597-9 Hardback c. £75.00 / c. US$135.00 Publication October 2015 For all formats available, see

www.cambridge.org/9781107075979

New in Paperback Textbook

Optimization Concepts and Applications in Engineering Second edition Ashok D. Belegundu Pennsylvania State University

and Tirupathi R. Chandrupatla Rowan University, New Jersey

This second edition considers how to meet or exceed previous quality and reliability standards while also reducing resource consumption. It covers a variety of optimization problems using: unconstrained, constrained, gradient, and non-gradient techniques; duality concepts; multiobjective optimization; linear, integer, geometric, and dynamic programming with applications; and finite element–based optimization. Contents: 1. Preliminary concepts; 2. One dimensional unconstrained minimization; 3. Unconstrained optimization; 4. Linear programming; 5. Constrained minimization; 6. Penalty functions, duality, and geometric programming; 7. Direct search methods for nonlinear optimization; 8. Multiobjective optimization; 9. Integer and discrete programming; 10. Dynamic programming; 11. Optimization applications for transportation, assignment, and network problems; 12. Finite element based optimization. 2014 234 x 156 mm 480pp 203 b/w illus. 17 tables 256 exercises 978-1-107-67417-2 Paperback £36.99 / US$55.99 Also available 978-0-521-87846-3 Hardback £74.99 / US$134.99 For all formats available, see

www.cambridge.org/9781107674172

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The Art of Electronics

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Harvard University, Massachusetts

and Winfield Hill

Rowland Institute of Science, Harvard University, Massachusetts

At long last, here is the thoroughly revised and updated, and long-anticipated, third edition of the hugely successful The Art of Electronics. Widely accepted as the best single authoritative text on electronic circuit design, it will be an indispensable reference and the gold standard for anyone in the field. ‘Who among us has not kept a cherished copy of AoE on our workbench throughout our careers? Engineers, hackers and makers of all stripes, rejoice for the third edition … has been worth the wait! Packed with tons of delicious knowledge to navigate electronics in both work and hobby. An encyclopedia of electronics knowledge, [The Art of Electronics] is a pleasure to read through for tips and tricks and is an unbeatable resource! Take a day out to read a chapter – you will learn things you didn’t even know you didn’t know. Or, refer to the pinouts, diagrams, and techniques as necessary to guide you through a difficult project. If you think electrical engineering is magical then you must pick up this tome!’ Limor ‘Ladyada’ Fried, Adafruit Industries Contents: 1. Foundations; 2. Bipolar transistors; 3. Field effect transistors; 4. Operational amplifiers; 5. Precision circuits; 6. Filters; 7. Oscillators and timers; 8. Low noise techniques and transimpedance; 9. Power regulation; 10. Digital electronics; 11. Programmable logic devices; 12. Logical interfacing; 13. Digital meets analog; 14. Computers, controllers, and data links; 15. Microcontrollers. 2015 253 x 203 mm 1224pp 1470 b/w illus. 78 tables 978-0-521-80926-9 Hardback £59.99 / US$120.00 For all formats available, see

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Daniel P. Loucks Cornell University, New York

John R. Callister Cornell University, New York

and James E. Timmons

Written by teachers and successful entrepreneurs, this textbook includes guidance, instruction and practical lessons for the prospective entrepreneur. The book focuses on early stage financing of a startup company, beginning with an emphasis on constructing an effective business plan and preparing solid financial statements. Contents: 1. Entrepreneur’s primer; 2. Recognizing opportunity; 3. Defining your opportunity; 4. Developing your business concept; 5. Creating your team; 6. Creating your company; 7. Financial accounting; 8. Business plans, presentations, and letters; 9. Fund raising; 10. Rules of investing; 11. Negotiation; 12. Management; 13. Project scheduling: critical path methods, program evaluation, and review techniques. 2013 253 x 177 mm 492pp 29 b/w illus. 29 tables 114 exercises 978-1-107-02472-4 Hardback £85.00 / US$145.00 978-1-107-60740-8 Paperback £40.00 / US$75.00 For all formats available, see

www.cambridge.org/9781107024724

Cambridge Handbook of Engineering Education Research Edited by Aditya Johri Virginia Polytechnic Institute and State University

and Barbara M. Olds Colorado School of Mines

Helping to define and inform this growing field, this rich multidisciplinary volume is an ideal reference for graduate students and researchers. It draws on the social sciences, engineering, and computing, as well as on contemporary learning research examining how technology affects learners and learning environments, and social context in learning. Contents: Foreword; Introduction; 1. Chronological and ontological development of engineering education as a field of scientific inquiry; 2. Learning theories for engineering education practice and research; 3. Situative framework for engineering learning research; 4. The social nature of representational engineering knowledge; 5. Conceptual change and misconceptions in engineering education: curricular-, measurement-, and theoretically-focused approaches; 6. Engineers as problem solvers; 7. Professional engineering work; 8. Problem-based and project-based learning in EE – merging models; 9. Case studies in engineering; 10. Curriculum design in the middle years; 11. Engineering design education; 12. Adaptive expertise and knowledge fluency in design and innovation; 13. Learning disciplinary ideas and practices through engineering design; 14. Engineering identity; 15. Studying the career pathways of engineers: an illustration with two datasets; 16. Retention and persistence in engineering education; 17. Social justice and inclusion: women and minorities in engineering; 18. Community engagement in engineering education as a way to increase inclusiveness; 19. Translating research to widespread practice in engineering education; 20. Research guided teaching practices: engineering threshold concepts as an approach to curriculum renewal; 21. Engineering instruction development: programs, best practices, and recommendations; 22. Understanding disciplinary cultures: the first step to cultural change; 23. Preparing engineering educators for engineering education research; 24. Studying teaching and learning in undergraduate engineering programs: conceptual frameworks to guide research on practice; 25. Design-based research in engineering education: current steps and next steps; 26. Quantitative and mixedmethods research: approaches and limitations;

27. Framing qualitative methods in engineering education research: established and emerging methodologies; 28. Conducting interpretive research in engineering education; 29. The science and design of assessment in engineering education; 30. Engineering communication; 31. Use of technology in engineering education; 32. Global and international issues in engineering education; 33. Engineering ethics; 34. The normative contents of engineering formation: engineering studies; 35. Interdisciplinarity in engineering practice; Conclusion. 2014 253 x 177 mm 786pp 63 b/w illus. 46 tables 978-1-107-01410-7 Hardback £75.00 / US$135.00 For all formats available, see

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Research Methods for Engineers David V. Thiel Griffith University, Queensland

Learn how to plan for success with this hands-on guide to conducting high-quality engineering research, containing step-bystep instructions and essential tools and methods to plan for maximum impact. With a unique engineering perspective, this is the ideal book for students and academics looking to launch their research careers. Contents: 1. Introduction to engineering research; 2. Literature search and review; 3. Developing a research plan; 4. Statistical analysis; 5. Optimisation techniques; 6. Survey research methods; 7. Research presentation; 8. The path forward; Appendix A. Matlab plot functions; Appendix B. Excel plot functions. 2014 228 x 152 mm 302pp 44 b/w illus. 53 exercises 978-1-107-03488-4 Hardback £65.00 / US$99.00 978-1-107-61019-4 Paperback £24.99 / US$39.99 For all formats available, see

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