An Introduction to Modern Cosmology
by Andrew Liddle
from Wiley
A concise, accessible introduction to this exciting and dynamic subject.
* Adopts an approach grounded in physics rather than mathematics.
* Includes worked examples and student problems, along with hints for solving them and the numerical answers.
* Many reviewers have commented that this is one of the best 'introductory undergraduate level' texts on the subject and they would all welcome a Second Edition.
Atom: Journey Across the Subatomic Cosmos
by Isaac Asimov
from Plume
Particle Physics: A Very Short Introduction
by Frank Close
from Oxford University Press, USA
In Particle Physics: A Very Short Introduction, best-selling author Frank Close provides a compelling and lively introduction to the fundamental particles that make up the universe. The book begins with a guide to what matter is made up of and how it evolved, and goes on to describe the fascinating and cutting-edge techniques used to study it. The author discusses particles such as quarks, electrons, and the neutrino, and exotic matter and antimatter. He also investigates the forces of nature, accelerators and detectors, and the intriguing future of particle physics. This book is essential reading for general readers interested in popular science, students of physics, and scientists at all levels.
Atkins' Molecules
by Peter Atkins
from Cambridge University Press
In this new edition of the book that was called "the most beautiful chemistry book ever written," Peter Atkins reveals the molecules responsible for the experiences of our everyday life in fabrics, drugs, plastics, explosives, detergents, fragrances, tastes, and sex. Atkins gives a non-technical account of a range of aspects of the world around us, revealing unexpected connections and insight into how it can be understood in terms of the atoms and molecules from which it is built. This new edition has dozens of new molecules, new graphic presentations, and a more accessible account of the molecules themselves. Peter Atkins is SmithKline Beecham Fellow and Tutor in Physical Chemistry at Oxford University. Atkins' research includes the fields of theoretical chemistry, particularly magnetic resonance and the electromagnetic properties of molecules. He spends virtually all his time writing books, which range from bestselling college textbooks to books on science for general audiences, including Galileo's Finger (Oxford, 2003); The Periodic Kingdom (Basic Books, 1997); The Second Law (W.H. Freeman, 1995); and Atoms, Electrons, and Change (W.H. Freeman, 1991). Previous Edition Paperback (W.H. Freeman, 1995) 0-7167-2928-8
This is a new edition of the book that was called 'the most beautiful chemistry book ever written'. With engaging prose Peter Atkins gives a non-technical account of an incredible range of aspects of the world around us, showing unexpected connections, and giving an insight into how this amazing world can be understood in terms of the atoms and molecules from which it is built. The new edition has dozens of new molecules, a completely new graphical presentation, and an even more accessible and enthralling account of the molecules themselves.
Shadows of the Mind: A Search for the Missing Science of Consciousness
by Roger Penrose
from Oxford University Press, USA
A New York Times bestseller when it appeared in 1989, Roger Penrose's The Emperor's New Mind was universally hailed as a marvelous survey of modern physics as well as a brilliant reflection on the human mind, offering a new perspective on the scientific landscape and a visionary glimpse of the possible future of science. Now, in Shadows of the Mind, Penrose offers another exhilarating look at modern science as he mounts an even more powerful attack on artificial intelligence. But perhaps more important, in this volume he points the way to a new science, one that may eventually explain the physical basis of the human mind.
Penrose contends that some aspects of the human mind lie beyond computation. This is not a religious argument (that the mind is something other than physical) nor is it based on the brain's vast complexity (the weather is immensely complex, says Penrose, but it is still a computable thing, at least in theory). Instead, he provides powerful arguments to support his conclusion that there is something in the conscious activity of the brain that transcends computation--and will find no explanation in terms of present-day science. To illuminate what he believes this "something" might be, and to suggest where a new physics must proceed so that we may understand it, Penrose cuts a wide swathe through modern science, providing penetrating looks at everything from Turing machines (computers programmed from artificial intelligence) to the implications of Godel's theorem maintaining that conscious thinking must indeed involve ingredients that cannot adequately be stimulated by mere computation. Of particular interest is Penrose's extensive examination of quantum mechanics, which introduces some new ideas that differ markedly from those advanced in The Emperor's New Mind, especially concerning the mysterious interface where classical and quantum physics meet. But perhaps the most interesting wrinkle in Shadows of the Mind is Penrose's excursion into microbiology, where he examines cytoskeletons and microtubules, minute substructures lying deep within the brain's neurons. (He argues that microtubules--not neurons--may indeed be the basic units of the brain, which, if nothing else, would dramatically increase the brain's computational power.) Furthermore, he contends that in consciousness some kind of global quantum state must take place across large areas of the brain, and that it within microtubules that these collective quantum effects are most likely to reside.
For physics to accommodate something that is as foreign to our current physical picture as is the phenomenon of consciousness, we must expect a profound change--one that alters the very underpinnings of our philosophical viewpoint as to the nature of reality. Shadows of the Mind provides an illuminating look at where these profound changes may take place and what our future understanding of the world may be.
Absorption and Scattering of Light by Small Particles (Wiley Science Paperback Series)
by Craig F. Bohren
from Wiley-Interscience
Absorption and Scattering of Light by Small Particles
Treating absorption and scattering in equal measure, this self-contained, interdisciplinary study examines and illustrates how small particles absorb and scatter light. The authors emphasize that any discussion of the optical behavior of small particles is inseparable from a full understanding of the optical behavior of the parent material-bulk matter. To divorce one concept from the other is to render any study on scattering theory seriously incomplete.
Special features and important topics covered in this book include:
* Classical theories of optical properties based on idealized models
* Measurements for three representative materials: magnesium oxide, aluminum, and water
* An extensive discussion of electromagnetic theory
* Numerous exact and approximate solutions to various scattering problems
* Examples and applications from physics, astrophysics, atmospheric physics, and biophysics
* Some 500 references emphasizing work done since Kerker's 1969 work on scattering theory
* Computer programs for calculating scattering by spheres, coated spheres, and infinite cylinders
Hgs Molecular Structure Models: Organic Chemistry
by Benjamin Maruzen
from Addison Wesley Publishing Company
Binding and Kinetics for Molecular Biologists
by James A. Goodrich
from Cold Spring Harbor Laboratory Press
This handbook is a practical guide to the principles of quantitative analysis in biological experiments. The material is primarily aimed at working molecular biologists, but the scope and clarity of presentation make it equally suitable as an introduction for students. Topics covered range from the basics such as measuring the concentrations of macromolecules through considerations of binding constants and the kinetics of molecular interactions, and ends with a consideration of data analysis. This handbook is a practical guide to the principles of quantitative analysis in biological experiments. The material is primarily aimed at working molecular biologists, but the scope and clarity of presentation make it equally suitable as an introduction for students. Topics covered range from the basics such as measuring the concentrations of macromolecules through considerations of binding constants and the kinetics of molecular interactions, and ends with a consideration of data analysis.
From the Publisher
This title is part of a series of books, published by Cold Spring Harbor Laboratory Press, aimed at postgraduates and researchers in the life sciences. The books provide key practical advice and data to make your life in the lab as easy as possible. The books are:
At the Bench (9780879697082);
At the Helm (9780879695835);
Binding and Kinetics for Molecular Biologists (9780879697365);
Experimental Design for Biologists (9780879697358);
Lab Dynamics (9780879697419);
Lab Math (9780879696344);
Lab Ref (9780879696306);
Lab Ref, Volume 2 (9780879698157)
More Related Titles: Basic Methods in Microscopy
Epigenetics
Imaging in Neuroscience and Development: A Laboratory Manual
Safety Sense: A Laboratory Guide, 2nd Edition
Molecular Modelling for Beginners
by Alan Hinchliffe
from Wiley
Presenting a concise, basic introduction to modelling and computational chemistry this text includes relevant introductory material to ensure greater accessibility to the subject.
- Provides a comprehensive introduction to this evolving and developing field
- Focuses on MM, MC, and MD with an entire chapter devoted to QSAR and Discovery Chemistry.
- Includes many real chemical applications combined with worked problems and solutions provided in each chapter
- Ensures that up-to-date treatment of a variety of chemical modeling techniques are introduced.
Presenting a concise, basic introduction to modelling and computational chemistry this text includes relevant introductory material to ensure greater accessibility to the subject. Provides a comprehensive introduction to this evolving and developing field Focuses on MM, MC, and MD with an entire chapter devoted to QSAR and Discovery Chemistry. Includes many real chemical applications combined with worked problems and solutions provided in each chapter Ensures that up-to-date treatment of a variety of chemical modeling techniques are introduced.
Developing Feeds with RSS and Atom
by Ben Hammersley
from O'Reilly Media, Inc.
Perhaps the most explosive technological trend over the past two years has been blogging. As a matter of fact, it's been reported that the number of blogs during that time has grown from 100,000 to 4.8 million-with no end to this growth in sight. What's the technology that makes blogging tick? The answer is RSS--a format that allows bloggers to offer XML-based feeds of their content. It's also the same technology that's incorporated into the websites of media outlets so they can offer material (headlines, links, articles, etc.) syndicated by other sites. As the main technology behind this rapidly growing field of content syndication, RSS is constantly evolving to keep pace with worldwide demand. That's where Developing Feeds with RSS and Atom steps in. It provides bloggers, web developers, and programmers with a thorough explanation of syndication in general and the most popular technologies used to develop feeds. This book not only highlights all the new features of RSS 2.0-the most recent RSS specification-but also offers complete coverage of its close second in the XML-feed arena, Atom. The book has been exhaustively revised to explain:
- metadata interpretation
- the different forms of content syndication
- the increasing use of web services
- how to use popular RSS news aggregators on the market
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