The Synthesis of the Elements: The Astrophysical Quest for Nucleosynthesis and What It Can Tell Us About the Universe - Astrophysics and Space Science Library 387 (Hardback)Giora Shaviv (author)
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This book describes the origins and evolution of the chemical elements we and the cosmos are made of. The story starts with the discovery of the common elements on Earth and their subsequent discovery in space. How do we learn the composition of the distant stars? How did progress in quantum theory, nuclear physics, spectroscopy, stellar structure and evolution, together with observations of stars, converge to provide an incredibly detailed picture of the universe? How does research in the micro-world explain the macro-world? How does progress in one affect the other, or lack of knowledge in one inhibit progress in the other? In short, Shaviv describes how we discovered the various pieces of the jigsaw that form our present picture of the universe; and how we sometimes put these in the wrong place before finding in the right one.
En route we meet some fascinating personalities and learn about heated controversies. Shaviv shows how science lurched from one dogma to the next, time and again shattering much of what had been considered solid knowledge, until eventually a stable understanding arose.
Beginning with generally accepted science, the book ends in today's terra incognita of nuclear physics, astrophysics and cosmology. A monumental work that will fascinate scientists, philosophers, historians and lay readers alike.
Publisher: Springer-Verlag Berlin and Heidelberg GmbH & Co. KG
Number of pages: 684
Weight: 1220 g
Dimensions: 235 x 155 x 41 mm
Edition: 2012 ed.
From the reviews:"Here, theoretical astrophysicist Shaviv ... shows readers where, when, and how they were formed along with the sequence of scientific discovery, the detective work, and the interactions among the many scientific pioneers who contributed their piece of the puzzle to today's understanding of the field. ... This very scholarly approach is valuable for both historians of these subfields and readers seeking modern explanations of how the building blocks of our world were formed. ... Summing Up: Highly recommended. Upper-division undergraduates through professionals." (W. E. Howard III, Choice, Vol. 50 (4), December, 2012)