Computational Methods for Electromagnetic and Optical Systems, Second Edition (Optical Science and Engineering)


Partha P. Banerjee, "Computational Methods for Electromagnetic and Optical Systems, Second Edition (Optical Science and Engineering)"
CRC; 1st edition (June 28, 2000) | English | 0824779169 | 444 pages | PDF | 4.91 MB

A reference/text that introduces a variety of spectral computational techniques, including k-space theory, Floquet theory, and beam propagation. Contents include mathematical principles, spectral state variable formulation for planar systems, planar diffraction gratings, and more.

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An Introduction to Client/Server Computing


Yadav, Subhash Chandra, Singh, Sanjay Kumar, "An Introduction to Client/Server Computing"
New Age International Publication | 2009-03 | ISBN: 8122426891 | 212 pages | PDF | 2,7 MB

The book covers the detail concepts of Client Server Architectural aspects, its application components, its relationship with database, development tools associated with it and technologies used to develop client server systems. The book will serve as a complete text for all undergraduate (BCA, B.Sc., BCS and B.Tech.) and post graduate students (MCA, M.Tech. and MS) of Computer Science and Engineering students of various Technical Universities.

Also the scope and depth of topics covered in the book, with its straightforward and often humorous delivery, make this book worth reading for anyone who deals with setting up client server computing environments in today`s corporate environment.

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The Vocabulary and Concepts of Organic Chemistry


The Vocabulary and Concepts of Organic Chemistry
Publisher: Wiley | 912 pages | June 3, 2005 | ISBN 0471680281 | PDF | 6 MB

This book is a basic reference providing concise, accurate definitions of the key terms and concepts of organic chemistry. Not simply a listing of organic compounds, structures, and nomenclatures, the book is organized into topical chapters in which related terms and concepts appear in close proximity to one another, giving context to the information and helping to make fine distinctions more understandable. Areas covered include: bonding, symmetry, stereochemistry, types of organic compounds, reactions, mechansims, spectroscopy, and photochemistry.

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Biophysical Chemistry


Alan Cooper, “Biophysical Chemistry”
Royal Society of Chemistry | 2004 | ISBN: 0854044809 | 184 pages | PDF | 17,3 MB

Biophysical Chemistry covers the physical chemistry of biological macromolecules and the experimental techniques used to study them. Topics covered include: an introduction to biological molecules; spectroscopy, mass spectrometry and hydrodynamics of macromolecules; a "bluffer's guide" to molecular thermodynamics; biomolecular kinetics; chromatography and electrophoresis; and single-molecule methods. The easily digestible, pragmatic approach captures the reader with the fascinating challenges the subject poses for theoretical and experimental scientists. This book will be ideal for early undergraduates studying chemical or physical sciences and will act as a basis for more advanced study. Students in other areas of biological sciences will appreciate the less intimidating approach to physical chemistry as demonstrated here. Ideal for the needs of undergraduate chemistry students, Tutorial Chemistry Texts is a major series consisting of short, single topic or modular texts concentrating on the fundamental areas of chemistry taught in undergraduate science courses. Each book provides a concise account of the basic principles underlying a given subject, embodying an independent-learning philosophy and including worked examples.

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Physical Chemistry for the Life Sciences by: Peter Atkins Julio de Paula


Physical Chemistry for the Life Sciences by: Peter Atkins Julio de Paula
Publisher: W. H. Freeman | ISBN: 0716786281 | 2005-06-17 | Pages: 699 | PDF | 3 MB

The behaviour of those macromolecules and molecular assemblies that have vital roles in all living organisms is grounded in physical chemistry. Physical principles determine the stability of proteins and nucleic acids, the rate at which biochemical reactions proceed, the transport of molecules across biological molecules; they allow us to describe structure and reactivity in complex biological systems, and make sense of how these systems operate. Physical Chemistry for the Life Sciences fills a void in the textbook market by offering a balanced presentation of the concepts of physical chemistry, and their extensive applications to biology and biochemistry.

It is written to straddle the worlds of physical chemistry and the life sciences and to show students how the tools of physical chemistry can elucidate and illuminate biological questions. Opening with a suite of chapters on Biochemical Thermodynamics, with a focus on energy conversion in biological cells and the factors that stabilize proteins, nucleic acids, and cell membranes, the book goes on to explore the Kinetics of Life Processes, examining the rates of chemical reactions, how rates can help characterise the mechanism of a reaction, and how enzymes affect reaction rates. A third section, Biomolecular Structure, looks at how concepts of physical chemistry can be used to establish those 'rules' that govern the assembly of complex biological structures, while the final section, Biomolecular Spectroscopy, describes the major techniques in biochemistry that are being applied to help us to explore biochemical processes and systems ever further. Physical Chemistry for the Life Sciences places emphasis on clear explanations of difficult concepts, with an eye toward building insight into biochemical phenomena. A rich palette of pedagogical features, including worked examples, illustrations, self-tests, and case studies, support student learning throughout, while special attention is given to providing extensive help to students with those mathematical concepts and techniques that are so central to a sound understanding of physical chemistry. Balancing clarity and rigor of exposition of basic concepts with extensive discussion of biological techniques and processes, Physical Chemistry for the Life Sciences is the perfect resource for every life science student who seeks to master those essentials of physical chemistry that underpin life itself. Pedagogy: - A Biochemical link at the start of each section explains how the physical chemistry content of the section is related to a biological concept, providing clear connections to students and acting as motivators for understanding - Toolbox sections describe techniques, and link experimental method with physical chemistry concepts, so the student can understand how experimental techniques are used to probe and solve chemical questions - Maths comments explain mathematical relationships and background necessary for solving problems, providing guidance and insight to bolster student understanding - Derivations present detailed derivations of key equations, and delineate intermediate steps, showing the student the enormous power of even simple mathematics - Worked examples illustrate the concepts being presented, empowering the student to apply the concepts for themselves - Self tests occur throughout the chapters, to enable students to immediately test their understanding - Checklists of key ideas at the end of each chapter provide a bulleted list of the information students should grasp from the chapter, facilitating student revision - End of chapter exercises come in three varieties, to enable students to apply the concepts introduced and check their understanding: - Discussion questions stimulate the qualitative understanding of problems - Exercises assess quantitative understanding - Projects stimulate more in-depth examination of questions at both a qualitative and quantitative level Online Resource Centre - Web links for each chapter, pointing students to interesting sources of related information and data, to facilitate self-directed learning - A list of key equations for each chapter, to help students revise and master the key mathematical concepts that underpin the subject - Living graphs, which present graphs from the text in interactive format, and enable students to strengthen their learning - Full colour artwork from the text in downloadable form, to facilitate lecture preparation --This text refers to the Hardcover edition.

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Mathematics for Chemistry & Physics By George Turrell


Mathematics for Chemistry & Physics By George Turrell
Publisher: Academic Press | ISBN: 0127050515 | 2001-12-15 | Pages: 400 | PDF | 9 MB

Chemistry and physics share a common mathematical foundation. From elementary calculus to vector analysis and group theory, Mathematics for Chemistry and Physics aims to provide a comprehensive reference for students and researchers pursuing these scientific fields. The book is based on the authors many classroom experience.

Designed as a reference text, Mathematics for Chemistry and Physics will prove beneficial for students at all university levels in chemistry, physics, applied mathematics, and theoretical biology. Although this book is not computer-based, many references to current applications are included, providing the background to what goes on "behind the screen" in computer experiments.

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Medicinal Chemistry: A Molecular and Biochemical Approach by: Thomas Nogrady, Donald F. Weaver


Medicinal Chemistry: A Molecular and Biochemical Approach by: Thomas Nogrady, Donald F. Weaver
Publisher: Oxford University Press, USA | ISBN: 0195104560 | 2005-07-28 | Pages: 672 | PDF | 21 MB

Fully updated and rewritten by a basic scientist who is also a practicing physician, the third edition of this popular textbook remains comprehensive, authoritative and readable. Taking a receptor-based, target-centered approach, it presents the concepts central to the study of drug action in a logical, mechanistic way grounded on molecular and biochemical principles. Students of pharmacy, chemistry and pharmacology, as well as researchers interested in a better understanding of drug design, will find this book an invaluable resource. Starting with an overview of basic principles, Medicinal Chemistry examines the properties of drug molecules, the characteristics of drug receptors, and the nature of drug-receptor interactions.

Then it systematically examines the various families of receptors involved in human disease and drug design. The first three classes of receptors are related to endogenous molecules: neurotransmitters, hormones and immunomodulators. Next, receptors associated with cellular organelles (mitochondria, cell nucleus), endogenous macromolecules (membrane proteins, cytoplasmic enzymes) and exogenous pathogens (viruses, bacteria) are examined. Through this evaluation of receptors, all the main types of human disease and all major categories of drugs are considered. There have been many changes in the third edition, including a new chapter on the immune system. Because of their increasingly prominent role in drug discovery, molecular modeling techniques, high throughput screening, neuropharmacology and genetics/genomics are given much more attention. The chapter on hormonal therapies has been thoroughly updated and re-organized. Emerging enzyme targets in drug design (e.g. kinases, caspases) are discussed, and recent information on voltage-gated and ligand-gated ion channels has been incorporated. The sections on antihypertensive, antiviral, antibacterial, anti-inflammatory, antiarrhythmic, and anticancer drugs, as well as treatments for hyperlipidemia and peptic ulcer, have been substantially expanded. One new feature will enhance the book's appeal to all readers: clinical-molecular interface sections that facilitate understanding of the treatment of human disease at a molecular level.

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