Summary of Michael D. Fayer's Absolutely Small


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Get the Summary of Michael D. Fayer's Absolutely Small in 20 minutes. Please note: This is a summary & not the original book. "Absolutely Small" by Michael D. Fayer delves into the realm of quantum theory, explaining how it revolutionized our understanding of the physical world, particularly the concept of size and its relation to observable phenomena like color. The book distinguishes between classical and quantum mechanics, using Schrödinger's Cat to illustrate the peculiar nature of quantum superposition. It emphasizes the role of observation in defining size and the inherent indeterminacy of quantum mechanics, where observation alters the state of small particles like electrons...




Absolutely Small


Book Description

Absolutely Small presents (and demystifies) the world of quantum science like no book before. Physics is a complex, daunting topic, but it is also deeply satisfying?even thrilling. When liberated from its mathematical underpinnings, physics suddenly becomes accessible to anyone with the curiosity and imagination to explore its beauty. Science without math? It’s not that unusual. For example, we can understand the concept of gravity without solving a single equation. So for all those who may have pondered what makes blueberries blue and strawberries red; for those who have wondered if sound really travels in waves; and why light behaves so differently from any other phenomenon in the universe, it’s all a matter of quantum physics. This book explores in considerable depth scientific concepts using examples from everyday life, such as: particles of light, probability, states of matter, what makes greenhouse gases bad Challenging without being intimidating, accessible but not condescending, Absolutely Small develops your intuition for the very nature of things at their most basic and intriguing levels.




Cost-profit Analysis


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The Basic Physics Of Quantum Theory


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This book is an introductory course on quantum theory accessible to anyone who is interested in obtaining an insider's knowledge of the subject, but who may not have studied physics at the college level. No mathematics is required beyond middle school algebra. Exercises are provided throughout the book, with answers at the back. This book can be used for self-study or as a textbook in an undergraduate or high school curriculum.




Visionary Leadership


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Visionary Leadership By: Stephen Mason Can anyone become a Visionary Leader? This question, laid out at the onset of the book, is answered with a resounding “Yes!” throughout its chapters. Stephen R. Mason was inspired to shares his reflections on his long career as an executive in the healthcare industry. Simply put, Mason is motivated by the thought that sharing his journey and the insights he has learned along the way might be of service to others. That journey shows up as a series of refreshingly personal analogies and anecdotes organized around a set of guiding principles called The Success Formula. While leaving plenty of room for individual interpretation, The Success Formula offers time-tested and well-vetted recommendations for making the most ambitious vision a reality. Mason incorporates interesting examples from his own career in healthcare to illustrate how any organization—including those in fields not known for their swift adaptation and market repositioning—can learn to innovate and think beyond the status quo. Once you know that becoming a Visionary Leader is possible, the inevitable follow-up question is: “How?” The author answers this question in the section of the book that precedes The Success Formula: Prepare for the Journey. One of the primary ideas of the book is that visionary leadership comes from within, not from without. A Visionary Leader must be willing to wrestle with his or her thoughts, emotions, and deeply held beliefs to find the confidence to stand up in front of an entire organization and say, “Follow me.” Visionary Leadership: Learning to Lead from the Inside Out explains these concepts in a way that is straightforward in both comprehension and application, without shying away from bigger themes of meaning, purpose, and spirituality. Readers will find this book inspirational and instructional, a roadmap for exploring the path of their own careers.




Ultrafast Infrared Vibrational Spectroscopy


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The advent of laser-based sources of ultrafast infrared pulses has extended the study of very fast molecular dynamics to the observation of processes manifested through their effects on the vibrations of molecules. In addition, non-linear infrared spectroscopic techniques make it possible to examine intra- and intermolecular interactions and how su




Watching Ultrafast Molecular Motions with 2D IR Chemical Exchange Spectroscopy


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This unique volume presents a comprehensive but accessible introduction to the field of ultrafast two-dimension infrared (2D IR) vibrational echo spectroscopy based on the pioneering work of Professor Michael D Fayer, Department of Chemistry, Stanford University, USA. It contains in one place a qualitative introduction to the field of 2D IR spectroscopy and a comprehensive set of scientific papers that underlie the qualitative discussion. The introductory material contains several detailed illustrations, and is based on the Centenary Lecture at the Indian Institute of Science given by Professor Fayer July 16, 2008 as part of the celebration of the 100th anniversary of the founding of IIS in Bangalore, India. The second part of the volume contains reprints of Fayer's relevant papers. The compilation will be very useful because it presents the historical background, motivation, methodology, and experimental results at a level that is accessible to the non-expert. The reprints of the scientific papers, from review articles to detailed theoretical papers, provide rigorous supporting material so that the reader can delve as deeply as desired into the subject.




Elements of Quantum Mechanics


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Elements of Quantum Mechanics provides a solid grounding in the fundamentals of quantum theory and is designed for a first semester graduate or advanced undergraduate course in quantum mechanics for chemistry, chemical engineering, materials science, and physics students. The text includes full development of quantum theory. It begins with the most basic concepts of quantum theory, assuming only that students have some familiarity with such ideas as the uncertainty principle and quantized energy levels. Fayer's accessible approach presents balanced coverage of various quantum theory formalisms, such as the Schr: odinger representation, raising and lowering operator techniques, the matrix representation, and density matrix methods. He includes a more extensive consideration of time dependent problems than is usually found in an introductory graduate course. Throughout the book, sufficient mathematical detail and classical mechanics background are provided to enable students to follow the quantum mechanical developments and analysis of physical phenomena. Fayer provides many examples and problems with fully detailed analytical solutions. Creating a distinctive flavor throughout, Fayer has produced a challenging text with exercises designed to help students become fluent in the concepts and language of modern quantum theory, facilitating their future understanding of more specialized topics. The book concludes with a section containing problems for each chapter that amplify and expand the topics covered in the book. A complete and detailed solution manual is available.




Ultimum Mysterium


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Ultimum Mysterium attempts to explain mysterious phenomena from a new perspective. In Section I: “The Puzzle”, the author sets out and examines a number of reportedly true cases of such activity, both from history and from more recent times, which are so bizarre that even current scientific theories are unable to offer an explanation. In Section II: “The Physics”, the author reviews the latest scientific discoveries (mainly in physics, but also in neurological research) with a view to seeing whether these can offer any kind of explanation to the strange phenomena described in Section I. In Section III: “The Philosophy”, the author examines the underlying philosophical issues to see what may be possible in terms of a scientific explanation. He argues the universe is what it is, regardless of what we may think about its workings. If the impossible happens, so be it. We need keep an open mind on the subject and embrace the bizarre, but fascinating world of the impossible.




Kluge


Book Description

A New York University psychologist argues that the mind is a "kluge"-a clumsy, cobbled-together contraption-as he ponders the accidents of evolution that caused this structure and what we can do about it.