Dielectrics in Electric Fields explores the influence of electric fields on dielectric—i.e., non-conducting or insulating—materials, examining the distinctive behaviors of these materials through well-established principles of physics and engineering. Featuring five new chapters, nearly 200 new figures, and more than 800 new citations, this fully updated and significantly expanded Second Edition: Analyzes inorganic substances with real-life applications in harsh working conditions such as outdoor, nuclear, and space environments Introduces methods for measuring dielectric properties at microwave frequencies, presenting results obtained for specific materials Discusses the application of dielectric theory in allied fields such as corrosion studies, civil engineering, and health sciences Combines in one chapter coverage of electrical breakdown in gases with breakdown in micrometric gaps Offers extensive coverage of electron energy distribution—essential knowledge required for the application of plasma sciences in medical science Delivers a detailed review of breakdown in liquids, along with an overview of electron mobility, providing a clear understanding of breakdown phenomena Explains breakdown in solid dielectrics such as single crystals, polycrystalline and amorphous states, thin films, and powders compressed to form pellets Addresses the latest advances in dielectric theory and research, including cutting-edge nanodielectric materials and their practical applications Blends early classical papers that laid the foundation for much of the dielectric theory with more recent work The author has drawn from more than 55 years of research studies and experience in the areas of high-voltage engineering, power systems, and dielectric materials and systems to supply both aspiring and practicing engineers with a comprehensive, authoritative source for up-to-date information on dielectrics in electric fields.
With the constant emergence of new research and application possibilities, gaseous electronics is more important than ever in disciplines including engineering (electrical, power, mechanical, electronics, and environmental), physics, and electronics. The first resource of its kind, Gaseous Electronics: Tables, Atoms, and Molecules fulfills the author’s vision of a stand-alone reference to condense 100 years of research on electron-neutral collision data into one easily searchable volume. It presents most—if not all—of the properly classified experimental results that scientists, researchers, and students require for a theoretical and practical understanding of collision properties and their impact. An unprecedented collection and analysis of electron neutral collision properties This book follows a new user-friendly format that enables readers to easily retrieve, analyze, and apply specific atomic/molecular information as needed. In his previous work, Gaseous Electronics: Theory and Practice, the author first explored electron–neutron interactions. To clarify the complex fundamental processes involved, he cited as much experimental data on atoms and molecules as limited space would allow. Completing that task, this handy reference more fully compiles essential revised data on more than 420 atoms and molecules, arranging it into easily digestible chapters, sections, and appendices. Analysis parameters include total scattering, ionization, excitation, attachment cross sections, ionization and attachment coefficients, attachment rates, and ion drift velocity. Some recent research areas in gaseous electronics include: Environmentally efficient and protective lighting devices Plasma research for power generation and space applications Medical applications (some involving skin treatment and healing) Written entirely in SI units, the book includes hundreds of tables, figures, and specially drawn charts, with data expressed in both tabular and graphical form. Each chapter stands independently and contains references for further research.
Written for students and professionals, this reference is a consolidation of all the data on the atoms and molecules available in literature today. It pulls together information from the areas of electrical engineering, electronics, power engineering, high-voltage engineering, physics, and mechanical engineering. Written entirely in SI units, the book includes over 1200 tables and 800 specially-drawn charts. Each chapter stands independently, and contains a list of references for further research. This reference is available in disk format, providing a user-friendly approach to its 1,800 pages with hyperlinks to tables, figures, and other chapters."--Provided by publisher.
India in 1939 was not a free state. Under British rule, young Indian men feared they would be forced to fight in the recently declared war on Germany. Shastri is one of these young men. Already incarcerated by the age of fifteen, however, Shastri turns down political opportunities in order to suffer with his people as a freedom fighter-and suffer he did. It is several years before India is declared a free state, in 1947. By then, Vedanta is born. Vedanta forms a friendship with the wise and learned Shastri, and soon Vedanta becomes Shastri's adopted son, accepting instruction from this respected elder. Together, they must navigate a newly free India, where the rules have changed and politics are as complicated as ever. Over a forty-year span, the life of Shastri pours into that of Vedanta. Through love of God and of women, both men seek peace and enlightenment. Although theirs is a story of India, the struggles of elder Shastri and young Vedanta are universal. They too seek to find the meaning of life, the strength to face challenges, and the power to trust, in spite of impossible odds.
Dielectrics in Electric Fields explores the influence of electric fields on dielectric—i.e., non-conducting or insulating—materials, examining the distinctive behaviors of these materials through well-established principles of physics and engineering. Featuring five new chapters, nearly 200 new figures, and more than 800 new citations, this fully updated and significantly expanded Second Edition: Analyzes inorganic substances with real-life applications in harsh working conditions such as outdoor, nuclear, and space environments Introduces methods for measuring dielectric properties at microwave frequencies, presenting results obtained for specific materials Discusses the application of dielectric theory in allied fields such as corrosion studies, civil engineering, and health sciences Combines in one chapter coverage of electrical breakdown in gases with breakdown in micrometric gaps Offers extensive coverage of electron energy distribution—essential knowledge required for the application of plasma sciences in medical science Delivers a detailed review of breakdown in liquids, along with an overview of electron mobility, providing a clear understanding of breakdown phenomena Explains breakdown in solid dielectrics such as single crystals, polycrystalline and amorphous states, thin films, and powders compressed to form pellets Addresses the latest advances in dielectric theory and research, including cutting-edge nanodielectric materials and their practical applications Blends early classical papers that laid the foundation for much of the dielectric theory with more recent work The author has drawn from more than 55 years of research studies and experience in the areas of high-voltage engineering, power systems, and dielectric materials and systems to supply both aspiring and practicing engineers with a comprehensive, authoritative source for up-to-date information on dielectrics in electric fields.
India in 1939 was not a free state. Under British rule, young Indian men feared they would be forced to fight in the recently declared war on Germany. Shastri is one of these young men. Already incarcerated by the age of fifteen, however, Shastri turns down political opportunities in order to suffer with his people as a freedom fighter-and suffer he did. It is several years before India is declared a free state, in 1947. By then, Vedanta is born. Vedanta forms a friendship with the wise and learned Shastri, and soon Vedanta becomes Shastri's adopted son, accepting instruction from this respected elder. Together, they must navigate a newly free India, where the rules have changed and politics are as complicated as ever. Over a forty-year span, the life of Shastri pours into that of Vedanta. Through love of God and of women, both men seek peace and enlightenment. Although theirs is a story of India, the struggles of elder Shastri and young Vedanta are universal. They too seek to find the meaning of life, the strength to face challenges, and the power to trust, in spite of impossible odds.
With the constant emergence of new research and application possibilities, gaseous electronics is more important than ever in disciplines including engineering (electrical, power, mechanical, electronics, and environmental), physics, and electronics. The first resource of its kind, Gaseous Electronics: Tables, Atoms, and Molecules fulfills the author’s vision of a stand-alone reference to condense 100 years of research on electron-neutral collision data into one easily searchable volume. It presents most—if not all—of the properly classified experimental results that scientists, researchers, and students require for a theoretical and practical understanding of collision properties and their impact. An unprecedented collection and analysis of electron neutral collision properties This book follows a new user-friendly format that enables readers to easily retrieve, analyze, and apply specific atomic/molecular information as needed. In his previous work, Gaseous Electronics: Theory and Practice, the author first explored electron–neutron interactions. To clarify the complex fundamental processes involved, he cited as much experimental data on atoms and molecules as limited space would allow. Completing that task, this handy reference more fully compiles essential revised data on more than 420 atoms and molecules, arranging it into easily digestible chapters, sections, and appendices. Analysis parameters include total scattering, ionization, excitation, attachment cross sections, ionization and attachment coefficients, attachment rates, and ion drift velocity. Some recent research areas in gaseous electronics include: Environmentally efficient and protective lighting devices Plasma research for power generation and space applications Medical applications (some involving skin treatment and healing) Written entirely in SI units, the book includes hundreds of tables, figures, and specially drawn charts, with data expressed in both tabular and graphical form. Each chapter stands independently and contains references for further research.
Examines the influences of electric fields on dielectric materials and explores their distinctive behavior through well established principles of physics and engineering and recent literature on dielectrics. Facilitates understanding of the space charge phenomena in the nonuniform fields. Contains more than 800 display equations.
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