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Book
xxvi, 1120 pages : illustrations ; 29 cm
Expanded and updated with new findings and new features * New chapter on Global Climate providing a self-contained treatment of climate forcing, feedbacks, and climate sensitivity * New chapter on Atmospheric Organic Aerosols and new treatment of the statistical method of Positive Matrix Factorization * Updated treatments of physical meteorology, atmospheric nucleation, aerosol-cloud relationships, chemistry of biogenic hydrocarbons * Each topic developed from the fundamental science to the point of application to real-world problems * New problems at an introductory level to aid in classroom teaching.
(source: Nielsen Book Data)9781118947401 20170117
Engineering Library (Terman)
Book
xxviii, 1203 p. : ill. ; 26 cm.
  • Preface to the Second Edition. Preface to the First Edition 1. The Atmosphere. 2. Atmosphere Trace Constituents. 3. Chemical Kinetics. 4. Atmospheric Radiation and Photochemistry. 5. Chemistry of the Stratosphere. 6. Chemistry of the Troposphere. 7. Chemistry of the Atmospheric Aqueous. 8. Properties of the Atmospheric Aerosol. 9. Dynamics of Single Aerosol Particles. 10. Thermodynamics of Aerosols. 11. Nucleation. 12. Mass Transfer Aspects of Atmospheric Chemistry. 13. Dynamics of Aerosol Populations. 14. Organic Atmospheric Aerosols. 15. Interaction of Aerosols with Radiation. 16. Meteorology of the Local Scale. 17. Cloud Physics. 18. Atmospheric Diffusion. 19. Dry Deposition. 20. Wet Deposition. 21. General Circulation of the Atmosphere. 22. Global Cycles: Sulfur and Carbon. 23. Climate and the Chemical Composition of the Atmosphere. 24. Aerosols and Climate. 25. Atmospheric Chemical Transport Models. 26. Statistical Models. Appendix A: Units and Physical Constants. Appendix B: Rate Constants of Atmospheric Chemical Reactions. Index.
  • (source: Nielsen Book Data)9780471720171 20160527
Thoroughly restructured and updated with new findings and new features, the Second Edition of this internationally acclaimed text presents the latest developments in atmospheric science. It continues to be the premier text for both a rigorous and a complete treatment of the chemistry of the atmosphere, covering such pivotal topics as: chemistry of the stratosphere and troposphere; formation, growth, dynamics, and properties of aerosols; meteorology of air pollution; transport, diffusion, and removal of species in the atmosphere; formation and chemistry of clouds; interaction of atmospheric chemistry and climate; radiative and climatic effects of gases and particles; and formulation of mathematical chemical/transport models of the atmosphere. All chapters develop results based on fundamental principles, enabling the reader to build a solid understanding of the science underlying atmospheric processes. Among the new material are three new chapters: Atmospheric Radiation and Photochemistry, General Circulation of the Atmosphere, and Global Cycles. In addition, the chapters Stratospheric Chemistry, Tropospheric Chemistry, and Organic Atmospheric Aerosols have been rewritten to reflect the latest findings. Readers familiar with the First Edition will discover a text with new structures and new features that greatly aid learning. Many examples are set off in the text to help readers work through the application of concepts. Advanced material has been moved to appendices. Finally, many new problems, coded by degree of difficulty, have been added. A solutions manual is available. Thoroughly updated and restructured, the Second Edition of Atmospheric Chemistry and Physics is an ideal textbook for upper level undergraduate and graduate students, as well as a reference for researchers in environmental engineering, meteorology, chemistry, and the atmospheric sciences.
(source: Nielsen Book Data)9780471720171 20160527
Engineering Library (Terman)
Book
xviii, 52 p. : ill. ; 28 cm.
Green Library
Book
xiv, 141 p. : ill., maps ; 28 cm.
Green Library
Book
1326 p.
  • The Atmosphere. Atmosphere Composition, Global Cycles, and Lifetimes. Atmospheric Photochemistry and Chemical Kinetics. Chemistry of the Stratosphere. Chemistry of the Troposphere. Chemistry of the Atmospheric Aqueous Phase. Properties of the Atmospheric Aerosol. Dynamics of Single Aerosol Particles. Thermodynamics of Aerosols. Nucleation. Mass Transfer Aspects of Atmospheric Chemistry. Dynamics of Aerosol Populations. Organic Atmospheric Aerosols. Meteorology of Air Pollution. Cloud Physics. Micrometeorology. Atmospheric Diffusion Theories. Analytical Solutions for Atmospheric Diffusion: The Gaussian Plume Equation and Others. Dry Deposition. Wet Deposition. Atmospheric Chemistry and Climate. Radiative Effects of Atmospheric Aerosols Visibility and Climate. Atmospheric Chemical Transport Models. Statistical Models. Appendices. Index.
  • (source: Nielsen Book Data)9780471178163 20160527
The only single-source reference available on atmospheric chemistry, aerosols, and atmospheric models This fully revised and expanded version of John H. Seinfeld's successful Atmospheric Chemistry and Physics of Air Pollution provides a rigorous, comprehensive treatment of the chemistry of the atmosphere. With new chapters on such important topics as cloud physics, nucleation, and wet deposition, this book offers a truly up-to-date examination of atmospheric chemistry today, including: Chemistry of the stratosphere and troposphere Formation, growth, dynamics, thermodynamics, and properties of aerosols Meteorology of air pollution Transport, diffusion, and removal of species in the atmosphere Formation and chemistry of clouds Interaction of atmospheric chemistry and climate Radiative and climatic effects of gases and particles Formulation of mathematical chemical/transport models of the atmosphere. Complete with solved examples, problems graded according to difficulty, and hundreds of illustrations, this state-of-the art reference is an ideal resource for both students and professionals in all areas of engineering as well as atmospheric science.
(source: Nielsen Book Data)9780471178163 20160527
Written as a textbook as well as a reference, the authors provide a treatment of the chemistry of the atmosphere. Some of the elements covered are: formation; growth; dynamics; meteorology of air pollution; the interaction of atmospheric chemistry and climate; and the radiative and climatic effects of gases and particles.
(source: Nielsen Book Data)9780471178156 20160527
SAL3 (off-campus storage)
Book
vii, 182 p. : ill. ; 28 cm.
SAL3 (off-campus storage)
Book
101, [7] leaves : ill. ; 28 cm.
SAL3 (off-campus storage)
Book
xxiii, 738 p. : ill. ; 25 cm.
  • Air Pollutants-- Effects of Air Pollution-- Sources of Pollutants in Combustion Processes-- Gas-Phase Atmospheric Chemistry-- Aqueous-Phase Atmospheric Chemistry-- Mass Transfer Aspects of Atmospheric Chemistry-- Properties of Aerosols-- Dynamics of Single Aerosol Particles-- Thermodynamics of Aerosols and Nucleation Theory-- Dynamics of Aerosol Population-- Air Pollution Meteorology-- Micrometeorology-- Atmospheric Diffusion Theories-- The Gaussian Plume Equation-- The Atmospheric Diffusion Equation and Air Quality Models-- Atmospheric Removal Processes and Residence Times-- Air Pollution Statistics-- Acid Rain-- Index.
  • (source: Nielsen Book Data)9780471828570 20160527
Offering a rigorous account of all aspects of the physical and chemical behavior of air pollutants, this book furnishes a clear analysis of the chemistry of atmospheric pollutants, an extensive treatment of the formation, thermodynamics and dynamics of atmospheric aerosols and a basic review of atmospheric diffusion with commonly used atmospheric diffusion formulas derived from first principles. It covers atmospheric removal processes, including wet and dry deposition, statistical distributions of atmospheric concentrations and a discussion of acid rain. Included are numerous problems, and all major chapters offer up-to-date bibliographies.
(source: Nielsen Book Data)9780471828570 20160527
SAL3 (off-campus storage), Science Library (Li and Ma)
Book
98 p. : ill. ; 28 cm.
SAL3 (off-campus storage)
Book
xi, 430 p. : ill. ; 24 cm.
  • Part 1 Mathematical theory: some basic results in the theory of partial differential equations - Bellman-Gronwall inequality, Sobolev spaces, Green's formula-- stochastic partial differential equations - radon measures, cylindrical probability, Gaussian cylindrical probability, nuclear and Hilbert-Schmidt operators, conditional expectation, Hilbert- space-valued Wiener processes-- optimal control of deterministic distributed parameter systems - elliptic systems, the Dirichlet problem, the Neumann problem, parabolic systems, Riccati equation, Hamilton-Jacobi equation, hyperbolic systems-- controllability and observability-- linear estimation theory - finite-dimensional estimation theory, estimation for random linear functionals-- optimal filter for distributed parameter systems - the filtering problems, Wiener filter, Kalman-Bucy filter, recursive formula for the optimal filter, innovation theory, duality between estimation and control, optimal filter for hyperbolic systems-- stochastic optimal control of distributed parameter systems-- formulation of the model, the stochastic optimal control problem, necessary and sufficient conditions for optimality, the separation principle-- identification of distributed parameter systems - the basic concept of system identification, modal approximation for identification, regularization. Part 2 Engineering Applications: formal approach to optimal filtering and control of distributed parameter systems - Wiener-Hopf theorem, the optimal filter, predictor and smoothing estimator, various approaches to linear estimation problems-- stochastic optimal control problems-- optimal sensor and actuator location problems - optimal sensor location problems, optimal actuator locations-- computational techniques for identification of distributed parameter systems - stochastic approximation, least squares identification, the Galerkin finite-element model, discrete regularization and minimization.
  • (source: Nielsen Book Data)9780198532958 20160528
Many problems in control and systems theory are formulated in terms of partial differential equations and these are known as distributed parameter systems. This book aims to present the major aspects of the control, estimation and identification of distributed parameter sytems. The book was written for all those applied mathematicians, control theorists and engineers whose work involves such systems and the authors have tried to present a comprehensive account of the essential results in both deterministic and stochastic systems. Part one develops the mathematical theory of distributed parameter systems. The results of the theory of deterministic and stochastic partial differential equations are developed and then applied to the optimal control and estimation theories for the distributed parameter systems. Controllability and observability problems are also discussed. Part two contains applications of the theory to engineering problems. The optimal sensor and actuator location problems are discussed from the engineering viewpoint. There then follows a treatment of computational techniques for the identification of distributed parameter systems. The book is intended for applied mathematicians, control theorists and engineers interested in distributed parameter systems.
(source: Nielsen Book Data)9780198532958 20160528
SAL3 (off-campus storage)
Book
xiii, 542 p. : ill. ; 24 cm.
SAL3 (off-campus storage)
Book
xii, 299 p. 24 cm.
SAL3 (off-campus storage)
Book
1 online resource (xii, 299 pages).
  • Fundamental definitions and equations
  • Runge-Kutta and allied single-step methods
  • Stability of multistep and Runge-Kutta methods
  • Predictor-corrector methods
  • Extrapolation methods
  • Numerical integration of stiff ordinary differential equations.
A concise introduction to numerical methods and the mathematical framework needed to understand their performance.
Book
140 leaves : ill. ; 28 cm.
SAL3 (off-campus storage)
Book
3 p. ; 28 cm.
Green Library
Book
52 pages : illustrations (some color) ; 28 cm
Green Library
Book
x, 50 p. : ill., charts ; 28 cm.
Green Library
Book
vi, 155 p. : ill. ; 27 cm.
Green Library, SAL3 (off-campus storage)
Book
v. 23cm.
  • [1] Amundson, N.R. Matrices and their application.-v.2.Aris, R. and Amundson, N.R. First-order partial differential equations with applications.-v.3.Seinfeld, J.H. and Lapidus, L. Process modeling, estimation, and identification.
SAL3 (off-campus storage)
Book
viii, 77 p. : ill. ; 28 cm.
Green Library

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