Dynamics and statics Books
University of Toronto Press Mechanics of the Solid State
Book SynopsisCollected in this volume are nineteen selected contributions written by twenty-six scholars in the field, in honour of their teacher and colleague, Professor Joseph Marin.Latest developments in the following specific fields are presented: Mathematical Inference from Mechanics, Elasticity, Cosserat Continua, Elastic Waves, Hypervelocity Impact, Composite Materials, Viscoelasticity, Plasticity, Creep, Relaxation, Low Cycle Fatigue, Crack Formation, Fracture, Pressure Vessel and Extrusion Die Design. The volume is a valuable and original contribution to engineering literature and will be of interest not only to engineers, but also to mathematicians and physicists.Dr. Joseph Marin led a life-long campaign for the introduction of the term Mechanics of the Solid State as a worthy companion of Physics of the Solid State. In fulfillment of his wish and in honour of his memory the present volume has been named Mechanics of the Solid State. It provides a list of the 162 papers a
£25.19
Momentum Press Risk and Reliability in Structural Engineering: Theoretical Basis
Book SynopsisThe primary purpose of this book is to introduce risk and reliability concept into structural design.A structure should be designed taking into account safety, reliability, and economy. Reliability is the probability of successful function, and risk is the potential for unwanted negative consequence of an event. In structural engineering, risk analysis involves the investigation of the probability of rare events. Risk analyses are typically made on the basis of information, which is subject to uncertainty. These uncertainties may be divided into inherent or natural variability. The objective of a structural design is the assurance of successful performance over the useful life of structures or engineering systems.The primary purpose of this book is to introduce risk and reliability concept into structural design. It will cover and review reliability theory and risk analysis to solve structural engineering problems. The book was formed from the easy to the difficult and complicated concepts. Content was written from the basic concepts of uncertainties, structural safety analysis, structural reliability under repeated load, and fatigue reliability. Based on the introduction of failure modes and bounds theory, structural system reliability theory is subsequently discussed. Numerical formulation and examples are provided to enhance the study efficiency of students, engineers, and researchers.This book is suitable for adoption as a textbook or a reference book in a structural reliability analysis course. Furthermore, this book also provides a theoretical foundation for better understanding of the structural safety assessment.
£38.66
Momentum Press Energy Methods in Stress Analysis
Book SynopsisThis book builds the subject from a foundation that static equilibrium occurs when the rate of change of work done by the load is equal to the rate of change of strain energy in the structure, Energy methods are a powerful tool for the stress analysis of loaded structures. This book builds the subject from a foundation that static equilibrium occurs when the rate of change of work done by the load is equal to the rate of change of strain energy in the structure. Advanced applications of the method are easily developed from this fundamental principle by partial differentiation of the appropriate terms. The methods solve linear problems, statically indeterminate structures, non-linear problems, frames and the derivation of stiffness matrices used in finite element analysis. Critical buckling loads for struts, plates and panels are modelled by comparison of the strain energy stored in the unbuckled and buckled shapes. This method develops an interesting discussion on the theory of buckling of a long slender strut which is additional to those in traditional texts. Post buckling stiffness of plates and panels are modelled using assumed shapes for strain energy calculation. The presentation offers a clear reasoning leading to analysis possibilities not seen in traditional texts which espouse concepts of virtual work, minimum potential energy, complementary energy, and the unit load method.
£38.66
Rutgers University Press Mechanical Vibration: Theory and Application
Book SynopsisThe Fifth edition of this classic textbook includes a solutions manual. Extensive supplemental instructor resources are forthcoming in the Fall of 2022.Mechanical Vibration: Theory and Application presents comprehensive coverage of the fundamental principles of mechanical vibration, including the theory of vibration, as well as discussions and examples of the applications of these principles to practical engineering problems. The book also addresses the effects of uncertainties in vibration analysis and design and develops passive and active methods for the control of vibration. Many example problems with solutions are provided. These examples as well as compelling case studies and stories of real-world applications of mechanical vibration have been carefully chosen and presented to help the reader gain a thorough understanding of the subject. There is a solutions manual for instructors who adopt this book. Request a solutions manual here (https://www.rutgersuniversitypress.org/mechanical-vibration).Trade ReviewThis fifth edition of Mechanical Vibration, a broad and deep exposition not only of vibration, but also of system uncertainties and control, has been expanded and re-written in many parts. The comprehensive coverage includes elementary as well as advanced and professional topics. There are numerous engineering case studies, new appendixes on damping models, and extensive MATLAB resources. The exposition of concepts is careful and precise and yet the presentation is casual, a combination that makes the book remarkably easy and enjoyable to read. -- Fai Ma * Mechanical Engineering, University of California, Berkeley *Mechanical vibration permeates every aspect of engineering design including automotive, aerospace, electronics, machine tools, robotics and structural systems. This text provides a well-integrated, clear and concise discussion of the theory and practice of mechanical vibration as well as the related subjects of random vibration and vibration control. It presents a wide array of real-world examples and meaningful case studies, highlighted by interesting photographs that motivate the subject. There are many solved problems, detailed derivations, and insights that draw on the academic and industrial experiences of the authors. Some of the examples address very classical systems, and others target next generation systems that are currently at the leading edge of technology. The authors are to be congratulated for writing an engaging textbook that makes the challenging and important subject of vibration accessible to engineering students in various disciplines. -- Thomas R. Kurfess * George W. Woodruff School of Mechanical Engineering, Georgia Institute of Technology *For a broad range of engineers involved in structural analysis, this is, in my opinion, a definitely "must have" book. It is perfectly relevant to numerous applications of vibrational analysis in civil, mechanical, aerospace, and biomechanical engineering fields. Although it is written primarily as a textbook, an experienced reader will find it equally useful as a systematic reference of major modern concepts, solutions, and demonstrations cases. The authors have found an optimum balance between “mathematical” and “applied” sides, emphasizing, on one hand, the motivation and modeling of reality, and lessons learned from generated results and, on the other hand, providing rigorous mathematical implementations in a very clear and logical way. The book is extremely well written, and very easy to read, with numerous examples. It also includes an appendix with extensive MATLAB programs for quick implementation into engineering practice. I especially value the chapters on random vibration that demonstrate the importance of probabilistic solutions of structural reliability. It is also a pleasure indeed to read historical anecdotes and life sketches and understand the development of modern mechanics as a process. -- Mark Gurvich * Technical Fellow, Collins Aerospace *Whether tuning a suspension, maximizing tire grip, honing a cylinder bore or determining (just enough) engine isolation, the topic of vibration is critical to vehicle design. This book is impressive, not only in its scope, but also in its approach. The presentation of material is well thought-out, the examples and derivations are quite detailed and easy to follow, while the prose, pictures and bios provide unique context that make the subject matter surprisingly engaging. Aside from making this broad topic approachable to students, this book serves as a concise reference for professionals. The inclusion of an overview of basic (time domain) controls, as well as random vibration, adds additional value and perspective. -- Jim Sadauckas * Staff System Engineer, Vehicle Dynamics & Simulation, Harley-Davidson Motor Company *In the design of vehicles, vibration is a constant issue as it influences complete vehicle properties such as cabin comfort, driving performance, and vehicle dynamics and can lead to fatigue, damage, and failure. Control of vibration is a key factor in successful vehicle design, making this book on modern vibration highly relevant. The book connects theory with practice, includes many worked examples and case studies, and is a resource on vibration that imparts deep physical as well as mathematical understanding to the student or engineer. It is highly recommended. -- Julian Weber * Head of Innovation Projects E-Mobility, BMW *I have heard people say that good writing has a ‘voice.’ Mechanical Vibration by Benaroya, Nagurka, and Han has a voice that tells a rich story about vibration analysis in all its glory – from the beauty of its mathematics through its impact on our daily lives to the history of the people who brought it to life. -- Keith Buffinton * Dean of Engineering, emeritus, Bucknell University *Table of Contents1. INTRODUCTION AND BACKGROUND2. SINGLE DEGREE-OF-FREEDOM UNDAMPED VIBRATION 3. SINGLE DEGREE-OF-FREEDOM DAMPED VIBRATION4. SINGLE DOF VIBRATION: GENERAL LOADING AND ADVANCED TOPICS5. VARIATIONAL PRINCIPLES AND ANALYTICAL DYNAMICS6. MULTI DEGREE-OF-FREEDOM VIBRATION7. CONTINUOUS MODELS FOR VIBRATION 8. CONTINUOUS MODELS FOR VIBRATION: ADVANCED MODELS9. RANDOM VIBRATION: PROBABILISTIC FORCES10. VIBRATION CONTROL 11. NONLINEAR VIBRATIONA: MATHEMATICAL CONCEPTS FOR VIBRATIONB: VISCOELASTIC DAMPINGC: SOLVING VIBRATION PROBLEMS WITH MATLABIndex
£107.20
Springer Nature Switzerland AG Physics of Nonlinear Optics
Book SynopsisThe book is designed to serve as a textbook for courses offered to upper-undergraduate students enrolled in physics. The first edition of this book was published in 2014. As there is a demand for the next edition, it is quite natural to take note of the several advances that have occurred in the subject over the past five years and to decide which of these are appropriate for inclusion at the textbook level, given the fundamental nature and the significance of the subject area. This is the prime motivation for bringing out a revised second edition. Among the newer mechanisms and materials, the book introduces the super-continuum generation, which arises from an excellent interplay of the various mechanisms of optical nonlinearity. The topics covered in this book are quantum mechanics of nonlinear interaction of matter and radiation, formalism and phenomenology of nonlinear wave mixing processes, optical phase conjugation and applications, self-focusing and self-phase modulation and their role in pulse modification, nonlinear absorption mechanisms, and optical limiting applications, photonic switching and bi-stability, and physical mechanisms leading to a nonlinear response in a variety of materials. This book has emerged from an attempt to address the requirement of presenting the subject at the college level. This textbook includes rigorous features such as the elucidation of relevant basic principles of physics; a clear exposition of the ideas involved at an appropriate level; coverage of the physical mechanisms of non-linearity; updates on physical mechanisms and emerging photonic materials and emphasis on the experimental study of nonlinear interactions. The detailed coverage and pedagogical tools make this an ideal textbook for students and researchers enrolled in physics and related courses.Table of Contents1 From Optics to Photonics 1.1 The Charm and Challenge of Modern Optics 1.2 The Nature of Optical Non-linearity 1.3 Overcoming the Materials Bottleneck 1.4 The Expanding Frontiers 1.5 Problems and Prospects 1.6 Explorations 2 A Phenomenological View of Nonlinear Optics 2.1 Optics in the Nonlinear World 2.1.1 Introduction 2.1.2 First Order Susceptibility 2.1.3 Second Order Susceptibility 2.1.4 Third Order Susceptibility 2.2 Time Domain Response 2.2.1 First Order Polarization- Time Domain Response 2.2.2 Second Order Polarization - Time Domain Response 2.3 Frequency Domain Response 2.3.1 First Order Susceptibility 2.3.2 Second Order Susceptibility 2.3.3 General Order (n) Susceptibility 2.4 The nth order polarization 2.5 Monochromatic Waves 2.6 Calculation of the Factor K 2.6.1 Optical Rectification 2.6.2 Second Harmonic Generation 2.6.3 Pockels Effect 2.6.4 Frequency Mixing : Sum and Difference Frequency generation 2.6.5 Third Harmonic Generation 2.6.6 Nondegenerate Four Wave Mixing 2.7 Explorations 3. Symmetry and Susceptibility 3.1 Introduction 3.2 Crystal Symmetry and Susceptibility Tensors 3.2.1 Neumann Principle 3.2.2 Symmetry of Second Order Susceptibility 3.2.3 Second Harmonic Generation 3.2.4 Kleinmann Symmetry 3.2.5 Symmetry of Third Order Susceptibility 3.3 The Dielectric Permittivity Tensor 3.4 The Refractive Index Ellipsoid 3.5 Explorations 4 Calculation of Non-linear Susceptibilities 4.1 Introduction 4.1.1 Physical Quantities in Quantum Physics 4.1.2 The Projection Operator 4.2 The Equation of Motion 4.3 Ensembles of Particles 4.4 Time-dependent Perturbation 4.5 Dipolar Interaction 4.6 First Order Density Matrix 4.7 Second Order Density Matrix 4.8 Third order Density Matrix 4.9 Double Integrals in the Expressions for the Density Matrix 4.10 Second Harmonic Susceptibility 4.11 Relaxation Effects 4.12 Applications to Color Centers 4.12.1 Third Order Susceptibility 4.12.3 Second Order Susceptibility 4.13. Explorations 5 Nonlinear Wave Mixing Processes 5.1 Introduction 5.2 Elements of Electromagnetism 5.3 Travelling Electromagnetic Waves in Free Space 5.3.1 Energy Density in the Travelling Wave 5.4 Propagation of Electromagnetic Waves in Linear Materials 5.5 Propagation of Electromagnetic Waves in Nonlinear Materials 5.5.1 The Wave Equation 5.5.2 Energy Transfer Rate 5.6 Three Wave Mixing 5.6.1 An Approximation 5.7 Second Harmonic Generation 5.7.1 Phase Matching Schemes 5.7.2 Accurate Treatment of Second Harmonic Generation 5.8 Explorations 6 Optical Phase Conjugation and Bi-stability 6.1 Optical Phase Conjugation 6.1.1 Phase Conjugation as Time reversal 6.1.2 Phase Conjugation through Four-wave-mixing 6.1.3 Practical Realization 6.1.4 The Peculiar Properties of the Phase Conjugate Beam 6.1.5 The Grating Picture 6.1.6 Applications of Phase Conjugation 6.2 Optical Bi-stability and Photonic Switching 6.2.1 Refractive Index at High Intensities : An Overview 6.2.2. Fabry-Perot Etalon 6.2.2 Photonic Switching in a Nonlinear Fabry-Perot Etalon 6.3 Explorations 7 Self Focusing, Phase Modulation and Pulse Shaping 7.1 Self Focusing of Light 7.1.1 The Concept of Self Focusing 7.1.2 Self Trapping and Spatial Solitons 7.1.3 The z-Scan Experiment 7.1.4 Analysis of the z-scan trace 7.1.5 Measurement of Nonlinear Optical Absorption 7.1.6 Mechanisms of Nonlinear Absorption 7.2 Self Phase Modulation 7.3 Pulse Shaping and Optical Soliton Propagation 7.3.1 Solitary Waves and Optical Solitons 7.4 Explorations 8 Materials and Mechanisms 8.1 Introduction 8.2 Mechanisms of Non-linearity 8.2.1 Anharmonicity of Potential 8.2.2 Thermal Mechanism 8.2.3 Orientational Mechanism 8.2.4 Inelastic Photon Scattering 8.2.5 Photorefractivity 8.2.6 Saturable Absorption 8.2.7 Band Gap Distortion (Franz-Keldysh Effect) 8.2.8 Band filling Mechanism 8.2.9 Non-parabolicity of Bands 8.2.10 Delocalization of Electrons 8.3 A Perspective on Newer Materials and Mechanisms 8.3.1 Low Dimensional Materials 8.3.2 Photonic Bandgap Materials 8.3.3 Slowing of light and the effect on non-linearity 8.3.4 Super-continuum Generation 8.4 Explorations 9. Basics of Multi-photon Microscopy 9.1 Introduction 9.2. Techniques for Bio-imaging with High resolution 9.2.1 Fluorescence Microscopy 9.2.2 Confocal Scanning Microscopy 9.3. Multi-photon Microscopy with IR Laser Sources 9.3.1 Principles and Experimental Techniques 9.3.2 Fluorescent Labels in Microscopy 9.4 Use of Multiphoton Absorption in Quantum Dots 9.5 Outlook 9.6 Explorations
£47.49
Taylor & Francis Ltd Metallic GlassBased Nanocomposites Molecular
Book SynopsisMetallic Glass-Based Nanocomposites: Molecular Dynamics Study of Properties provides readers with an overview of the most commonly used tools for MD simulation of metallic glass composites and provides all the basic steps necessary for simulating any material on Materials Studio. After reading this book, readers will be able to model their own problems on this tool for predicting the properties of metallic glass composites. This book provides an introduction to metallic glasses with definitions and classifications, provides detailed explanations of various types of composites, reinforcements and matrices, and explores the basic mechanisms of reinforcement-MG interaction during mechanical loading. It explains various models for calculating the thermal conductivity of metallic glass composites and provides examples of molecular dynamics simulations. Aimed at students and researchers, this book caters to the needs of those working in the field of molecuTable of Contents1. Introduction to Metallic Glass. 2. Metallic Glass Nanocomposites. 3. Molecular Modeling of Metallic Glass and Their Nanocomposites. 4. Predicting Thermal Conductivity of Metallic Glasses and Their Nanocomposites. 5. Damping Behavior of Metallic Glass Composites at Nanoscale. 6. MATLAB Programming of Properties of Metallic Glasses and Their Nanocomposites
£137.75
Taylor & Francis Ltd Road Vehicle Dynamics Fundamentals and Modeling with MATLAB Ground Vehicle Engineering
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£120.00
Taylor & Francis Ltd Finite Element Analysis of Solids and Structures
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£104.50
Taylor & Francis Ltd Rail Vehicle Mechatronics
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£145.00
Taylor & Francis Ltd Road Vehicle Dynamics
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£45.99
Taylor & Francis Ltd Durability of Industrial Composites
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£58.99
Taylor & Francis Ltd Metallic GlassBased Nanocomposites
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£45.59
Taylor & Francis Ltd Nonlinear Mechanics for Composite Heterogeneous Structures
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£147.25
Taylor & Francis Ltd Projectile Dynamics in Sport Principles and Applications
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£43.99
Taylor & Francis Ltd Analysis and Compensation of Kinetic Friction in
Book SynopsisAnalysis and Compensation of Kinetic Friction in Robotic and Mechatronic Control Systems comprehensively covers kinetic friction in a robotics, mechatronics, and control engineering context. Providing the theory behind kinetic friction, as well as compensation methods and practical solutions, the text is a key companion to studying different control systems. Beginning with a clear introduction to the subject, the book goes on to include three main facets of kinetic friction, starting with phenomena of kinetic friction in drives. This chapter explains friction interfaces and friction effects. Following from this, the next chapter looks at motion dynamics with friction, which introduces dynamic system equations and focuses on both energy balance and dissipation. Finally, the book looks at compensation of friction in motion control, which summarises key compensation methods in controlled mechanical systems. Introducing various basic feedback control methods, incTable of Contents1. Introduction 2. Phenomena of kinetic friction in drives 3. Motion dynamics with friction 4. Compensation of friction in motion control 5. Conclusion
£49.99
Taylor & Francis Ltd Durability of Industrial Composites
Book SynopsisDurability of Industrial Composites offers numerical and quantitative solutions to long-term composite failures that are useful to practicing engineers, researchers, and students. All modes of laminate long-term failure are contemplated, with resin toughness and environmental conditions considered. The book develops a simple unified equation to compute the load-dependent durability of laminates under the simultaneous action of cyclic and static loads. The load-independent durability and residual life of equipment immersed in corrosive chemicals are also discussed. The book presents a full discussion of the elusive strain-corrosion mode of failure as well as a complete solution to the durability issue of underground sanitation pipes. The currently accepted durability parameters of HDB, Sb and Sc are discarded as incorrect and replaced with the appropriate threshold parameters. The entirely new concept of the anomalous failure is fully discussed and solved. The Table of ContentsPart 1: Computation of Total Strains. Chapter 1. Ply Properties. Chapter 2. Laminate Circularity. Chapter 3. Computing the Total Ply Strains. Chapter 4. Laminate Matrices. Chapter 5. Total Strains in ± 55 Laminates. Chapter 6. Total Strains in ± 70 Laminates. Chapter 7. Total Strains in Hoop-Chop Sanitation Pipes. Part 2: Computation of Durability. Chapter 8: the Eight Modes of Long-Term Failure. Chapter 9: The Regression Equations. Chapter 10: Temperature, Moisture and Resin Toughness. Chapter 11: Service Life and the Corrosion Barrier. Chapter 12: Long-Term Fiber Rupture. Chapter 13: Infiltration, Weep and Stiffness Failures. Chapter 14: Laminate Strain-Corrosion. Chapter 15: Abrasion Life. Chapter 16: The Unified Equation. Chapter 17: The Interaction Parameter Gsc. Chapter 18: Numerical Computation of the Interaction Parameter Gsc. Chapter 19: The Unified Equation Applied to API 15HR. Chapter 20: Short-Term Strengths of ± 55 Oil Pipes. Chapter 21: Impermeable Pipes. Appendix: The Fatigue Mechanism.
£147.25
Taylor & Francis Ltd Advanced Fracture Mechanics and Structural
Book SynopsisAdvanced Fracture Mechanics and Structural Integrity is organized to cover quantitative descriptions of crack growth and fracture phenomena. The mechanics of fracture are explained, emphasizing elastic-plastic and time-dependent fracture mechanics. Applications are presented, using examples from power generation, aerospace, marine, and chemical industries, with focus on predicting the remaining life of structural components and advanced testing metods for structural materials. Numerous examples and end-of-chapter problems are provided, along with references to encourage further study.The book is written for use in an advanced graduate course on fracture mechanics or structural integrity.Table of Contents1. Introduction and Review of Linear Elastic Fracture Mechanics 2. Analysis of Cracks under Elastic–Plastic Conditions 3. Methods of Estimating J-Integral 4. Crack Growth Resistance Curves and Measures of Fracture Toughness 5. Effects of Constraint on Fracture and Stable Crack Growth under Elastic–Plastic Loading 6. Microscopic Aspects of Fracture 7. Fatigue Crack Growth under Large-Scale Plasticity 8. Analysis of Cracks in Creeping Materials 9. Creep–Fatigue Crack Growth 10. Applications
£128.25
Cambridge University Press Quantum Field Theory of Nonequilibrium States
Book SynopsisThis 2007 textbook presents quantum field theoretical applications to systems out of equilibrium, using both the mathematical canonical way of studying non-equilibrium states, and Feynman diagrams. Complete with numerous exercises for self-study, this textbook is suitable for graduate students in statistical mechanics and condensed matter physics.Trade ReviewReview of the hardback: 'The information is there, well presented and comprehensive… ' Contemporary PhysicsTable of ContentsPreface; 1. Quantum fields; 2. Operators on the multi-particle state space; 3. Quantum dynamics and Green's functions; 4. Non-equilibrium theory; 5. Real-time formalism; 6. Linear response theory; 7. Quantum kinetic equations; 8. Non-equilibrium superconductivity; 9. Diagrammatics and generating functionals; 10. Effective action; 11. Disordered conductors; 12. Classical statistical dynamics; Appendices: A. Path integrals; B. Retarded and advanced propagators; C. Analytic properties of Green's functions; Bibliography; Index.
£57.94
Cambridge University Press Philosophy and the Foundations of Dynamics By Sklar Lawrence November 2012
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£25.60
Cambridge University Press Dynamics Ergodic Theory and Geometry 54 Mathematical Sciences Research Institute Publications Series Number 54
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£99.90
Cambridge University Press Philosophy and the Foundations of Dynamics
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£71.65
Cambridge University Press Notes on Hamiltonian Dynamical Systems
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£94.99
Cambridge University Press Attractors for Semigroups and Evolution Equations
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£19.99
Cambridge University Press Essentials of Heat Transfer
Book SynopsisThis textbook teaches students the principles, materials and applications they need to understand and analyze heat transfer problems they will encounter in practice. The emphasis on modern practical problems (including thermoelectric cooling) in the numerous examples, sets this work apart from other available works.Table of Contents1. Introduction and preliminaries; 2. Energy equation; 3. Conduction; 4. Radiation; 5. Convection: unbounded fluid streams; 6. Convection: semi-bounded fluid streams; 7. Convection: bounded fluid streams; 8. Heat transfer in thermal systems.
£104.50
Cambridge University Press Heat Transfer Physics 2E
Book SynopsisThis second edition describes atomic-level 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.Table of Contents1. 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.
£96.90
Picture Window Books El Movimiento
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£23.46
Capstone Press Moving Fast Wonder Readers Emergent Level
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£6.99
Capstone Press Thud Wile E Coyote Experiments with Forces and
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£8.54
Barcharts, Inc Dynamics
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£999.99