The Manhattan Project: A very brief introduction to the physics of nuclear weapons

Front Cover
Morgan & Claypool Publishers, May 22, 2017 - Science - 114 pages

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.

 

Selected pages

Contents

Preface
Author biography
Nuclear fission
Criticality and efficiency
Obtaining fissile material
Los Alamos Little Boy Fat Man Trinity Hiroshima and Nagasaki
Effects of nuclear weapons
Legacy
Bibliography
Copyright

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B. Cameron Reed
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Common terms and phrases

achieve Alamos alpha analysis assembly Atomic Bomb atomic number Bockscar bomb core bombers cal cm−2 calutrons chain reaction critical mass cross-section decay deployed detonation distance dose Ebarr effects efficiency energy released enrichment equation estimated exposure feet figure fireball fissile material fission barrier fuel gaseous diffusion Groves half-life Hiroshima and Nagasaki implosion inch diameter initial IOP Concise Physics isotope kilogram kilotons kinetic energy Little Boy Los Alamos Manhattan Project mass number mean free path meters miles Nagasaki neutron capture Norris R S nuclear explosion nuclear weapons nuclei number density number of neutrons Oak Ridge physicists physics of nuclear Physics The Manhattan plutonium predetonation projectile radiation radioactivity radius Rbare Rcore reactor Reed B C rems SF rate Sievert slow neutrons speed spontaneous fission supercritical tamper tanks target Tinian treaty Trinity test United uranium warheads weaponizability weapons B Cameron yield

About the author (2017)

B. Cameron Reed is the Charles A. Dana Professor of Physics at Alma College, Alma, Michigan. In addition to a quantum mechanics text and two other books on the Manhattan Project, he has published over 100 papers in peer-reviewed scientific journals in areas such as astronomy, data analysis, quantum physics, nuclear physics, and the history of physics. In 2009 he was elected a Fellow of the American Physical Society, "For his contributions to the history of both the physics and the development of nuclear weapons in the Manhattan Project."

Bibliographic information

TitleThe Manhattan Project: A very brief introduction to the physics of nuclear weapons
IOP Concise Physics
AuthorB. Cameron Reed
PublisherMorgan & Claypool Publishers, 2017
ISBN1681746069, 9781681746067
Length114 pages
Subjects ›  › 

History / Military / Nuclear Warfare
Science / Physics / Nuclear
Science / Radiation
Technology & Engineering / Military Science
Technology & Engineering / Power Resources / Nuclear
  
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