Book Description
The periodic table is one of the most potent icons in science. It lies at the core of chemistry and embodies the most fundamental principles of the field. The one definitive text on the development of the periodic table by van Spronsen (1969), has been out of print for a considerable time. The present book provides a successor to van Spronsen, but goes further in giving an evaluation of the extent to which modern physics has, or has not, explained the periodic system. The book is written in a lively style to appeal to experts and interested lay-persons alike. The Periodic Table begins with an overview of the importance of the periodic table and of the elements and it examines the manner in which the term 'element' has been interpreted by chemists and philosophers. The book then turns to a systematic account of the early developments that led to the classification of the elements including the work of Lavoisier, Boyle and Dalton and Cannizzaro. The precursors to the periodic system, like Dobereiner and Gmelin, are discussed. In chapter 3 the discovery of the periodic system by six independent scientists is examined in detail. Two chapters are devoted to the discoveries of Mendeleev, the leading discoverer, including his predictions of new elements and his accommodation of already existing elements. Chapters 6 and 7 consider the impact of physics including the discoveries of radioactivity and isotopy and successive theories of the electron including Bohr's quantum theoretical approach. Chapter 8 discusses the response to the new physical theories by chemists such as Lewis and Bury who were able to draw on detailed chemical knowledge to correct some of the early electronic configurations published by Bohr and others. Chapter 9 provides a critical analysis of the extent to which modern quantum mechanics is, or is not, able to explain the periodic system from first principles. Finally, chapter 10 considers the way that the elements evolved following the Big Bang and in the interior of stars. The book closes with an examination of further chemical aspects including lesser known trends within the periodic system such as the knight's move relationship and secondary periodicity, as well at attempts to explain such trends.
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A book that honors "one of the most powerful icons in science".......2007-04-12
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"In spite of the central...role of the periodic table [of the elements], very few authors have felt drawn to write books on its evolution. There is no book that deals adequately with the historical, and especially the conceptual, aspects of the periodic system [that holds that there is a fundamental relationship among the elements] or its significance in chemistry and science generally. It is with the aim of injecting a more philosophical treatment to understanding the periodic system that [this book] has been undertaken...this book is not intended as a work of historical scholarship...the reader is [taken] on an interdisciplinary tour of the many areas of science that are connected with the periodic system, including physics, mathematics, computational methods, history and philosophy of science, and of course, chemistry."
The above is found in the introduction to this fascinating, extremely well researched book by Dr. Eric Scerri, a professor of chemistry and history & philosophy of science at UCLA. This book is fittingly dedicated to the 100TH anniversary of the death of Dimitri Mendeleev (1834 to 1907).
The periodic table of the elements--what is it? Simply, it is basically a two-dimensional representation of a periodic system (that is explained above). The aim of this book is to bring the story of the periodic table "up to date."
This book from my own personal perspective can roughly be divided into five parts:
(I) An overview of the periodic system. (1 chapter)
(II) The development of the periodic table. (4 chapters)
(III) The nucleus and the periodic table: radioactivity, atomic number (the number of protons contained in the nucleus of the atom of an element), and isotopy (isotopes are any of two or more forms of an element having the same number of protons but differing in the number of neutrons). (1 chapter)
(IV) Electronic explanations for the elements of the periodic table: physics versus chemistry. (3 chapters)
(V) Astrophysics, element formation, other chemical trends that defy neat explanations, and three fundamental questions regarding the periodic table. (1 chapter)
One of the key features of this book, as mentioned above, is that it is well researched. However, Scerri goes one step beyond mere information gathering. He actually questions the information he has found. Here are just three examples:
(1) "The notion that the periodic table was deduced from quantum theory by [physicist Niels] Bohr [as the historical record implies] is something of an exaggeration."
(2) "This, I submit, suggests remarkable foresight and intuition on the part of [chemical writer] Gmelin, as does the way in which he uses his system to ground the presentation of the chemistry of these elements. Yet Gmelin's contribution to the classification of the elements has not been sufficiently appreciated of chemistry, or even historians of the periodic system."
(3) Clearly [chemist Dimitri] Mendeleev was spectacularly successful in [his] predictions [of new elements] but perhaps not quite to the extent that is implied by the more selective tables of comparison that regularly appear in chemistry textbooks and even histories of chemistry."
Another feature of this book is the inclusion of the actual writings of key people involved in the development of the periodic table. I found all of these interesting.
Yet another feature is that it is jam-packed with charts, tables, diagrams, etc. so readers can see for themselves what is going on. Some of these tables, etc. are actual copies from historical documents. As well, there are black and white portraits of some of those who contributed to some aspect of the formation and understanding of the periodic table.
The majority of the chapters end with a conclusion that consolidates all the information in a particular chapter. I found these most helpful.
Finally, I feel that this book can be read by all who are interested in the periodic table. However, the author assumes some science background. Many terms are defined in the book's main narrative but many are not. Thus, it would have been helpful if an appendix explaining key terms was also included. As well, a glossary would have been most helpful. Of course, any difficulties can be resolved by referring to a good, standard dictionary or even a basic science dictionary (especially for part IV above).
In conclusion, there are elements of the periodic table that are named after admired others. Examples include Einsteinium and Mendelevium. Eric Scerri has written a comprehensive book that honors the periodic table. Perhaps when a new element is discovered it should be named "Scerrium."
(first published 2006; acknowledgements; introduction; 10 chapters; main narrative 285 pages; notes; index)
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Beautiful Patterns.......2007-01-05
Humans are exquisitely good at finding patterns. Sometimes those patterns turn out to be illusory, such as the constellations. Sometimes they turn out to be very real, such as the patterns illustrated by the periodic table of the elements. Eric Scerri, in his book The Periodic Table, has done an excellent job of presenting a "warts and all" history of the periodic table. Instead of presenting the "heroes only" version of the history of the periodic table [speaking of illusory patterns] found in most high school and college textbooks, he gives us a full historical view with all the players, big and small, and shows how even ideas that turned out to be wrong had a positive effect on getting us to the periodic table we use today. Although scientists may someday show that the periodic table ultimately reduces to quantum mechanics, Professor Scerri shows us why we can't say that with the level of certainty with which it is often presented in chemistry classes [the next time I find chemistry among my preps at the high school where I teach, I will be much better prepared to deal with the periodic table]. The interested lay reader should find the book quite accessible, but a knowledge of high school chemistry, especially in the later chapters where electron configurations are presented [idea for the paperback - include an appendix that covers some chemistry basics like electron configurations], will help. Knowledge of the terminology used in the study of philosophy will also help the reader. This book should be of interest to folks with an interest in the history and philosophy of science, even if they don't have a specific interest in chemistry and the periodic table, especially fans of Thomas Kuhn's The Structure of Scientific Revolutions. I strongly suggest that The Periodic Table become required reading for all high school chemistry teachers! John Emsley is still my favorite writer on chemical topics, but Eric Scerri moves to a place not far behind.
An instant classic.......2007-01-03
The Periodic Table is one of the most iconic symbols in our culture. Every person interested in the physical world in which we live will want to read this book. It is also a masterful history of the people involved in the establishment of the periodic law of chemistry. The gradual growth in awareness of the regularities of the elements is the main theme of this work. It is already a classic in its first year in print!
A brilliant achievement.......2006-12-28
Scerri's work is a rich and fascinating account of the history, development and current significance of the Periodic Table: if you have any interest in chemistry you should read it. In his book he describes how the Period System was discovered (giving due credit to Mendeleev, but also to many others who deserve their place in the history of discovery),showing how it was received by other chemists. The most interesting part for me is in the brilliant later chapters, where the role of the Periodic System in influencing Bohr's ideas on the atom, and the nature of the relationship between quantum theory and empirical evidence is presented as clearly as you will find anywhere. Chemistry emerges not (as Dirac once claimed) entirely reduced to physics, but as a still-developing science in which quantum mechanics plays an important but not yet wholly reductive role.
Book Description
Ordinary foams such as the head of a glass of beer and more exotic ones such as solid metallic foams raise many questions for the physicist and have attracted a substantial research community in recent years. The present book describes the results of extensive experiments, computer simulations, and theories in an authoritative yet informal style, making ample use of illustrations and photographs. As an introduction to the whole field of the physics of foams it puts a strong emphasis on liquids while also including solid foams. Simple, idealized models are adopted and their consequences explored. Specific topics include: structure, drainage, rheology, conductivity, and coarsening. A minimum of mathematics is used. Theory and experiment are described together at every stage. A guide to further reading is provided through carefully selected references. This is a complete and coherent introduction to the subject which no other modern text currently offers.
Customer Reviews:
Great read !.......2007-06-10
If you like history,then you will love this book! Faraday was a genius in his own time.Amazing how relevent he would be today.
An extremely intelligent book.......2000-04-02
This is very well written and the explanations are very clear. Certainly a true classic. This book will appeal to both the layman and the technically inclined.
Book Description
A Machine to Make a Future represents a remarkably original look at the present and possible future of biotechnology research in the wake of the mapping of the human genome. The central tenet of Celera Diagnostics--the California biotech company whose formative work during 2003 is the focus of the book--is that the emergent knowledge about the genome, with its profound implications for human health, can now be turned into a powerful diagnostic apparatus--one that will yield breakthrough diagnostic and therapeutic products (and, potentially, profit). Celera's efforts--assuming they succeed--may fundamentally reshape the fabric of how health and health care are understood, practiced, and managed.
Presenting a series of interviews with all of the key players in Celera Diagnostics, Paul Rabinow and Talia Dan-Cohen open a fascinating window on the complexity of corporate scientific innovation. This marks a radical departure from other books on the biotech industry by chronicling the vicissitudes of a project during a finite time period, in the words of the actors themselves.
Ultimately, the authors conclude, Celera Diagnostics is engaged in a future characterized not by geniuses and their celebrated discoveries but by a largely anonymous and widely distributed profusion of data and results--a "machine to make a future."
In their new afterword, Rabinow and Dan-Cohen revisit Celera Diagnostics as its mighty machine grinds along, wondering, along with the scientists, "what constitutes success and what constitutes failure?" The pathos of the situation turns on how one poses the question as much as how one answers it.
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Why Chemical Reactions Happen
James Keeler , and
Peter Wothers
Manufacturer: Oxford University Press, USA
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Prentice Hall Molecular Model Set For Organic Chemistry
ASIN: 0199249733 |
Book Description
By tackling the most central ideas in chemistry, Why Chemical Reactions Happen provides the reader with all the tools and concepts needed to think like a chemist. The text takes a unified approach to the subject, aiming to help the reader develop a real overview of chemical processes, by avoiding the traditional divisions of physical, inorganic and organic chemistry. To understand how chemical reactions happen we need to know about the bonding in molecules, how molecules interact, what determines whether an interaction is favourable or not, and what the outcome will be. Answering these questions requires an understanding of topics from quantum mechanics, through thermodynamics, to "curly arrows". In this book all of these topics are presented in a coherent and coordinated fashion, showing how each leads to a deeper understanding of chemical reactions.
Book Description
There are some who would question the need to republish papers that have already appeared elsewhere. Walter Pagel once said that scholars should think in terms of books rather than research papers since the latter become lost in the literature. When he told me this years ago I was not entirely convinced...from the Preface
Customer Reviews:
College-level students of either science or philosophy will find it important........2006-12-14
CHEMICAL PROMISE: EXPERIMENT AND MYSTICISM ON THE CHEMICAL PHILOSOPHY, 1550-1800 is no light reading, but an in-depth gathering of the papers and essays of Allen G. Debus, History professor at the University of Chicago who was trained as research chemist and has published widely on Renaissance and early modern science theory. His history CHEMICAL PROMISE embraces both European and American history and philosophy and offers up a close analysis of scientific method, definition, and changing scientific perceptions from alchemy to modern times. College-level students of either science or philosophy will find it important.
Diane C. Donovan
California Bookwatch
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From Chemical Philosophy to Theoretical Chemistry: Dynamics of Matter and Dynamics of Disciplines, 1800-1950
Mary Jo Nye
Manufacturer: University of California Press
ProductGroup: Book
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ASIN: 0520082109 |
Book Description
How did chemistry and physics acquire their separate identities, and are they on their way to losing them again? Mary Jo Nye has written a graceful account of the historical demarcation of chemistry from physics and subsequent reconvergences of the two, from Lavoisier and Dalton in the late eighteenth century to Robinson, Ingold, and Pauling in the mid-twentieth century.
Using the notion of a disciplinary "identity" analogous to ethnic or national identity, Nye develops a theory of the nature of disciplinary structure and change. She discusses the distinctive character of chemical language and theories and the role of national styles and traditions in building a scientific discipline. Anyone interested in the history of scientific thought will enjoy pondering with her the question of whether chemists of the mid-twentieth century suspected chemical explanation had been reduced to physical laws, just as Newtonian mechanical philosophers had envisioned in the eighteenth century.
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Private Science: Biotechnology and the Rise of the Molecular Sciences (Chemical Sciences in Society Series)
Manufacturer: University of Pennsylvania Press
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The Retroviridae Volume 3 (The Viruses)
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ASIN: 0306446936 |
Book Description
The books in this acclaimed series are the most detailed, up-to-date accounts of the field available. Volume 3 explores the oncogenic potential shared by retroviruses of different species, the widespread presence of retrovirues in nature, and the role of retroviruses in normal development and pathogenesis.
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The Periodic Table
