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One Physicist's Guide to Nuclear Weapons presents a truly global look at the history, use, and issues surrounding nuclear weapons from the perspective of physicist and writer Jeremy Bernstein. A first-hand witness to the development and science of nuclear weapons, he is in a unique position to highlight the ways in which nuclear weapons work with a writing style that is suitable for lay readers and scientists alike. Bernstein brings the reader on a journey from the Nevada nuclear- testing fields in the 1950's to the present day situations in Iran and North Korea, while delving into the physics and science behind the bomb. With an introduction by Sir Chris Llewellyn Smith, this book is a testament to the last seventy 70 years of the nuclear age, affecting every human being on the planet.
Annotation 'One Physicist's Guide to Nuclear Weapons' presents a truly global look at the history, use, and issues surrounding nuclear weapons from the perspective of physicist and writer Jeremy Bernstein. A first-hand witness to the development and science of nuclear weapons, he is in a unique position to highlight the ways in which nuclear weapons work with a writing style that is suitable for lay readers and scientists alike.
The development of nuclear weapons by the Manhattan Project during World War II was one of the most dramatic scientific/technological episodes in human history. This book, prepared by a recognized expert on the Manhattan Project, offers a concise survey of the essential physics concepts underlying fission weapons. The text describes the energetics and timescales of fast-neutron chain reactions, why only certain isotopes of uranium and plutonium are suitable for use in fission weapons, how critical mass and bomb yield can be estimated, how the efficiency of nuclear weapons can be enhanced, how the fissile forms of uranium and plutonium were obtained, some of the design details of the 'Little Boy' and 'Fat Man' bombs, and some of the thermal, shock, and radiation effects of nuclear weapons. Calculation exercises are provided, and a Bibliography lists authoritative print and online sources of information for readers who wish to pursue more detailed study of this fascinating topic.
Physics and Nuclear Arms Today is a collection of the best articles written about the arms race which appeared in Physics Today between 1976 and 1989. The articles explore a wide variety of topical issues such as the effects of nuclear weapons, nuclear testing, offensive strategic weapons, defensive SDI or Star Wars weapons, nuclear nonproliferation and the social responsibility of scientists as well as a wide selection of articles which chronicle the history of nuclear weaponry. The authors also represent a broad spectrum of well known names in the physics community including Andrei Sakharov, Sidney Drell, Wolfgang Panofsky, Edward Teller, Frank von Hippel, Victor Weiskopf, and Freeman Dyson. Of interest to physicists interested in arms control issues, nuclear weapons, and international relations; science and defense policy makers.
The development of nuclear weapons by the Manhattan Project during World War II was one of the most dramatic scientific/technological episodes in human history. This book, prepared by a recognized expert on the Manhattan Project, offers a concise survey of the essential physics concepts underlying fission weapons. The text describes the energetics and timescales of fast-neutron chain reactions, why only certain isotopes of uranium and plutonium are suitable for use in fission weapons, how critical mass and bomb yield can be estimated, how the efficiency of nuclear weapons can be enhanced, how the fissile forms of uranium and plutonium were obtained, some of the design details of the 'Little Boy' and 'Fat Man' bombs, and some of the thermal, shock, and radiation effects of nuclear weapons. Calculation exercises are provided, and a Bibliography lists authoritative print and online sources of information for readers who wish to pursue more detailed study of this fascinating topic.
An authoritative and unbiased guide to nuclear technology and the controversies that surround it. Are you for nuclear power or against it? What's the basis of your opinion? Did you know a CT scan gives you some 2 millisieverts of radiation? Do you know how much a millisievert is? Does irradiation make foods safer or less safe? What is the point of a bilateral Russia-US nuclear weapons treaty in a multipolar world? These are nuclear questions that call for nuclear choices, and this book equips citizens to make these choices informed ones. It explains, clearly and accessibly, the basics of nuclear technology and describes the controversies surrounding its use.
An epic story of science and technology at the very limits of human understanding: the monumental race to build the first atomic weapons. Rich in personality, action, confrontation, and deception, The First War of Physics is the first fully realized popular account of the race to build humankind's most destructive weapon. The book draws on declassified material, such as MI6's Farm Hall transcripts, coded soviet messages cracked by American cryptographers in the Venona project, and interpretations by Russian scholars of documents from the soviet archives. Jim Baggott weaves these threads into a dramatic narrative that spans ten historic years, from the discovery of nuclear fission in 1939 to the aftermath of 'Joe-1,’ August 1949's first Soviet atomic bomb test. Why did physicists persist in developing the atomic bomb, despite the devastation that it could bring? Why, despite having a clear head start, did Hitler's physicists fail? Could the soviets have developed the bomb without spies like Klaus Fuchs or Donald Maclean? Did the allies really plot to assassinate a key member of the German bomb program? Did the physicists knowingly inspire the arms race? The First War of Physics is a grand and frightening story of scientific ambition, intrigue, and genius: a tale barely believable as fiction, which just happens to be historical fact.
An epic story of science and technology at the very limits of human understanding: the monumental race to build the first atomic weapons. Rich in personality, action, confrontation, and deception, The First War of Physics is the first fully realized popular account of the race to build humankind's most destructive weapon. The book draws on declassified material, such as MI6's Farm Hall transcripts, coded soviet messages cracked by American cryptographers in the Venona project, and interpretations by Russian scholars of documents from the soviet archives. Jim Baggott weaves these threads into a dramatic narrative that spans ten historic years, from the discovery of nuclear fission in 1939 to the aftermath of 'Joe-1,’ August 1949's first Soviet atomic bomb test. Why did physicists persist in developing the atomic bomb, despite the devastation that it could bring? Why, despite having a clear head start, did Hitler's physicists fail? Could the soviets have developed the bomb without spies like Klaus Fuchs or Donald Maclean? Did the allies really plot to assassinate a key member of the German bomb program? Did the physicists knowingly inspire the arms race? The First War of Physics is a grand and frightening story of scientific ambition, intrigue, and genius: a tale barely believable as fiction, which just happens to be historical fact.
The benefits of nuclear technology are real. So are the dangers. In "Nuclear Choices, physicist Richard Wolfson provides citizens with the background they need to make informed choices about the nuclear technologies that provide a substantial portion of our electrical energy, help airlines detect terrorists' bombs, and enhance the diagnosis and treatment of disease, but tha have also produced the devastation of Hiroshima and the accidents at Three-Mile Island and Chernobyl.Wolfson introduces the concepts needed to evaluate the claims of proponents and opponents of the various nuclear technologies. He clearly and concisely explains the basics of nuclear energy and radiation, nuclear power (electricity, reactors, nuclear waste, and alternatives to nuclear fission), and nuclear weapons (their history, technology, effects, delivery systems, strategy, and control), and he invites readers to make their own judgments on controversial nuclear issues.By covering essentially all nuclear technologies in one book, Wolfson stresses the connections among them - especially the multifaceted relationship between nuclear power and nuclear weapons. To aid those seeking a deeper understanding of individual nuclear technologies and the associated issues, each chapter includes a brief summary of the main ideas, a glossary, and a list of further readings.Richard Wolfson is Professor of Physics at Middlebury College.