Download Free Chemistry Of Free Atoms And Particles Book in PDF and EPUB Free Download. You can read online Chemistry Of Free Atoms And Particles and write the review.

Chemistry of Free Atoms and Particles covers the chemistry of metal atoms and metallic molecules or fragments. This book contains 10 chapters that are organized on the basis of the Periodic Chart. Each group of elements is separated into a discussion of first the free atoms, followed by a discussion of reactive molecular forms of metal halides, oxides, and sulfides. These sections are further broken down into subsections on ""Occurrence, Properties, and Techniques"" followed by ""Chemistry"". The ""Chemistry"" sections are further divided into several headings, including abstraction, electron-transfer, oxidative addition, simple orbital mixing, substitution, disproportional and ligand transfer, and cluster formation processes. This book will be of value to chemistry researchers, teachers, and students.
Electrons, Atoms, and Molecules in Inorganic Chemistry: A Worked Examples Approach builds from fundamental units into molecules, to provide the reader with a full understanding of inorganic chemistry concepts through worked examples and full color illustrations. The book uniquely discusses failures as well as research success stories. Worked problems include a variety of types of chemical and physical data, illustrating the interdependence of issues. This text contains a bibliography providing access to important review articles and papers of relevance, as well as summaries of leading articles and reviews at the end of each chapter so interested readers can readily consult the original literature. Suitable as a professional reference for researchers in a variety of fields, as well as course use and self-study. The book offers valuable information to fill an important gap in the field. - Incorporates questions and answers to assist readers in understanding a variety of problem types - Includes detailed explanations and developed practical approaches for solving real chemical problems - Includes a range of example levels, from classic and simple for basic concepts to complex questions for more sophisticated topics - Covers the full range of topics in inorganic chemistry: electrons and wave-particle duality, electrons in atoms, chemical binding, molecular symmetry, theories of bonding, valence bond theory, VSEPR theory, orbital hybridization, molecular orbital theory, crystal field theory, ligand field theory, electronic spectroscopy, vibrational and rotational spectroscopy
Young readers will be amazed to learn about the tiny particles that make up everything in the world around them. Colorful illustrations and fun fact boxes will help readers understand how atoms come together to form molecules, the building blocks of everything in the universe.
This comprehensive graduate-level text by a leading researcher in atomic and molecular spectroscopy explores the electron-spin-resonance theory of randomly oriented molecules. "I recommend it highly." ? American Scientist. 119 illustrations.
Atoms and molecules are the basic building blocks of matter. Matter is every physical thing around us in the universe, including our own bodies! In Explore Atoms and Molecules! With 25 Great Projects, readers ages 7 to 10 investigate the structure of atoms and learn how atoms fit together to form molecules and materials. If everything is made out of atoms and molecules, why do people look different from dogs and doorknobs? In Explore Atoms and Molecules, readers discover that the characteristics of a material are determined by the way the atoms and molecules connect, and study how chemical reactions change these connections to create everything we know. This book discusses the elements on the periodic table and why they are grouped into families, encouraging the exploration of meaningful classification systems. States of matter and mixtures and compounds round out the exploration of atoms and molecules! This book supports the maker movement with lots of hands-on activities that illuminate the concepts of chemistry. Readers build 3-D models of molecules and create a periodic table guessing game. Fascinating sidebars offer opportunities for readers to connect the text with real-world science, and cartoon illustrations provide a fun foundation for learning.
Atoms, Molecules, and Compounds goes behind the scenes of day-to-day chemistry to explore the atoms that govern chemical processes. In clear language, this exciting book shows how the interactions between simple substances such as salt and water ar
At the most fundamental level, all of chemistry is a reflection of the ways in which electrons and nuclei interact with each other. The behaviour of electrons and nuclei are controlled by the rules of quantum mechanics - rules which are quite unlike those in the familiar world of classical mechanics, and which may at first seem quite complex. Here, the authors show how quantum mechanics can explain the properties of atoms and molecules.
Thin Films from Free Atoms and Particles is an eight-chapter text that describes the primary reaction modes of atoms or coordination-deficient particles. This book presents first an introduction to free atoms and particles, followed by a chapter describing the embryonic growth of films, such as dimers, trimers, and other small telomers formed and detected. The next chapters discuss the understanding of discharge processes for forming free atoms and particles. The remaining chapters deal with the technology, techniques, and materials in thin films. Physicists, engineers, materials scientists, and chemists will find this book of great value.
This book presents coherent and systematic coverage of the broad and dynamic field of free atom and cluster atom chemistry. The text provides a comprehensive overview of the current literature and describes the mostimportant experimental techniques developed since 1980 including bimetallic clusters/catalysts, carbon clusters (fullerenes) and trapped single atoms. Metal atoms, clusters, and particles are covered in sequence with the Periodic Table.