The distribution of elements in the cosmos is the result of many processes in the history of the Universe. It provides us with a powerful tool to study the Big Bang, the density of baryonic matter, nucleosynthesis and the formation and evolution of stars and galaxies. This textbook, by a pioneer of the field, provides a lucid and wide-ranging introduction to the interdisciplinary subject of galactic chemical evolution. We are introduced to a broad spectrum of exciting astrophysics, from thermonuclear reactions, abundance ...
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The distribution of elements in the cosmos is the result of many processes in the history of the Universe. It provides us with a powerful tool to study the Big Bang, the density of baryonic matter, nucleosynthesis and the formation and evolution of stars and galaxies. This textbook, by a pioneer of the field, provides a lucid and wide-ranging introduction to the interdisciplinary subject of galactic chemical evolution. We are introduced to a broad spectrum of exciting astrophysics, from thermonuclear reactions, abundance measurements in astronomical sources, cosmological element production, stellar evolution and nucleosynthesis, to light element production by cosmic rays and the effects of galactic processes on the evolution of the elements. The reader is thus led to develop an intuitive and analytical understanding of results from numerical models and real observations. Simple, elegant derivations for key results are provided throughout, together with problems and helpful solution hints. This long-awaited textbook provides a comprehensive introduction to the broad subject of galactic chemical evolution for advanced undergraduate and graduate students, and an invaluable overview for researchers.
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