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El. knyga: History and Science of the Manhattan Project

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In this book, a physicist and expert on the history of the Manhattan Project clearly explains the underlying science behind the development of the atomic bomb, including how atomic bombs work, the Hiroshima and Nagasaki missions, and the legacy of the Project.

The development of atomic bombs under the auspices of the U.S. Army’s Manhattan Project during World War II is considered to be the outstanding news story of the twentieth century. In this book, a physicist and expert on the history of the Project presents a comprehensive overview of this momentous achievement. The first three chapters cover the history of nuclear physics from the discovery of radioactivity to the discovery of fission, and would be ideal for instructors of a sophomore-level “Modern Physics” course. Student-level exercises at the ends of the chapters are accompanied by answers. Chapter 7 covers the physics of first-generation fission weapons at a similar level, again accompanied by exercises and answers. For the interested layman and for non-science students and instructors, the book includes extensive qualitative material on the history, organization, implementation, and results of the Manhattan Project and the Hiroshima and Nagasaki bombing missions. The reader also learns about the legacy of the Project as reflected in the current world stockpiles of nuclear weapons.

This second edition contains important revisions and additions, including a new chapter on the German atomic bomb program and new sections on British and Canadian contributions to the Manhattan project and on feed materials. Several other sections have been expanded; reader feedback has been helpful in introducing minor corrections and improved explanations; and, last but not least, the second edition includes a detailed index.

 

 

1 Introduction and Overview
1(18)
1.1
Chapters 2 and 3: The Physics
3(4)
1.2
Chapter 4: Organization
7(1)
1.3
Chapters 5--7: Uranium, Plutonium, and Bomb Design and Delivery
7(7)
1.4
Chapters 8--10: Hiroshima, Nagasaki, the German Program, and the Legacy of Manhattan
14(4)
Further Reading
18(1)
2 A Short History of Nuclear Physics to the Mid-1930s
19(56)
2.1 Radioactivity, Nuclei, and Transmutations: Developments to 1932
21(34)
2.1.1 Marie Curie: Polonium, Radium, and Radioactivity
23(1)
2.1.2 Ernest Rutherford: Alpha, Beta, and Half-Life
24(4)
2.1.3 Units of Energy in Nuclear Physics and the Energy of Radioactive Decay
28(2)
2.1.4 Isotopes, Mass Spectroscopy, and the Mass Defect
30(6)
2.1.5 Alpha Particles and the Nuclear Atom
36(4)
2.1.6 Reaction Notations, Q-Values, Alpha and Beta Decay, and Decay Chains
40(5)
2.1.7 Artificial Transmutation
45(3)
2.1.8 The Coulomb Barrier and Particle Accelerators
48(7)
2.2 Discovery of the Neutron
55(5)
2.3 Artificially-Induced Radioactivity
60(1)
2.4 Enrico Fermi and Neutron-Induced Radioactivity
61(8)
2.5 Another Look at Mass Defect and Binding Energy (Optional)
69(3)
Further Reading
72(3)
3 The Discovery and Interpretation of Nuclear Fission
75(50)
3.1 The Discovery of Fission
75(16)
3.2 The Physics of Fission I: Nuclear Parity, Isotopes, and Fast and Slow Neutrons
91(5)
3.3 The Physics of Fission II: The Fission Barrier and Chain Reactions
96(6)
3.4 The Physics of Fission III: Summary
102(1)
3.5 Criticality Considered
103(3)
3.6 Bohr Verified
106(2)
3.7 The Frisch-Peierls Memorandum and the MAUD Committee
108(6)
3.8 Predicting and Producing Plutonium
114(7)
Further Reading
121(4)
4 Organizing the Manhattan Project, 1939--1943
125(58)
4.1 Fall 1939: Szilard, Einstein, the President, and the Uranium Committee
126(8)
4.2 June 1940: The National Defense Research Committee; Reorganization I
134(3)
4.3 May 1941: The First NAS Report
137(4)
4.4 July 1941: The Second NAS Report, MAUD, the OSRD, and Reorganization II
141(5)
4.5 October--November 1941: The Top Policy Group and the Third National Academy Report
146(4)
4.6 November 1941: Bush, FDR, Reorganization III, and the Planning Board
150(3)
4.7 December 1941--January 1942: The Pile Program Rescued and Centralized
153(4)
4.8 Spring 1942: Time Is Very Much of the Essence, and Trouble in Chicago
157(5)
4.9 June--September 1942: The S-1 Executive Committee, the Manhattan Engineer District, and the Bohemian Grove Meeting
162(8)
4.10 September 17, 1942: Groves Takes Command
170(7)
4.11 December 1942: A Report to the President
177(3)
Further Reading
180(3)
5 Oak Ridge, CP-1, and the Clinton Engineer Works
183(56)
5.1 Oak Ridge: The Secret City
184(2)
5.2 CP-1 and X-10: The Pile Program
186(13)
5.3 Y-12: The Electromagnetic Separation Program
199(14)
5.4 K-25: The Gaseous Diffusion Program
213(9)
5.5 S-50: The Thermal Diffusion Program
222(10)
5.6 The Postwar Era at Clinton
232(4)
Further Reading
236(3)
6 The Hanford Engineer Works
239(32)
6.1 Contractor and Site Selection
240(3)
6.2 Pile Design and Construction
243(9)
6.3 Fuel and Cooling Systems
252(4)
6.4 Control, Instrumentation, and Safety
256(1)
6.5 Operations and Plutonium Separation
257(6)
6.6 The Postwar Era at Hanford
263(1)
6.7 Feed Materials
264(5)
Further Reading
269(2)
7 Los Alamos, Trinity, and Tinian
271(112)
7.1 Origins of the Laboratory
272(4)
7.2 Organizing the Work: The Los Alamos Primer
276(7)
7.3 Life on the Hill
283(3)
7.4 The British Mission
286(6)
7.5 The Physics of Criticality
292(6)
7.6 Critical Assemblies: The Gun and Implosion Methods
298(3)
7.7 Predetonation Physics
301(11)
7.7.1 The (α, n) Problem
302(6)
7.7.2 The Spontaneous Fission Problem
308(4)
7.8 The Delivery Program
312(7)
7.9 The Gun Bomb: Little Boy
319(3)
7.10 The Spontaneous Fission Crisis: Reorganizing the Laboratory
322(4)
7.11 The Implosion Bomb: Fat Man
326(12)
7.12 Trinity
338(24)
7.13 A Brief Tutorial on Bomb Effects
362(4)
7.14 Project A: Preparation of Combat Bombs
366(5)
7.15 Other Fissile Isotopes (Optional)
371(7)
Further Reading
378(5)
8 Hiroshima and Nagasaki
383(56)
8.1 The 509th Composite Group: Training and Targets
383(10)
8.2 Fall 1944: Postwar Planning Begins
393(3)
8.3 President Truman Learns of the Manhattan Project
396(3)
8.4 Advice and Dissent: The Interim Committee, the Scientific Panel, and the Franck Report
399(8)
8.5 The Bombing Missions
407(21)
8.6 Effects of the Bombs
428(4)
8.7 The Aftermath
432(4)
Further Reading
436(3)
9 The German Nuclear Program
439(38)
9.1 Origins of the German Program: Competition from the Outset
439(6)
9.2 A Report to the War Office, and Norwegian Heavy-Water
445(4)
9.3 1940: Plutonium, Cyclotrons, and the First Berlin Pile
449(2)
9.4 1941: An Error with Graphite, Twice a Spy, and a Visit to Copenhagen
451(3)
9.5 1942: Changes of Fortune
454(4)
9.6 Operations Freshman and Gunnerside
458(2)
9.7 1943: Plenipotentiary for Nuclear Physics, and Vemork Bombed
460(4)
9.8 1944: The D/F Hydro Sinking, Alsos, and the Berlin Pile Bunkers
464(3)
9.9 1945: The B-VII and B-VIII Piles
467(3)
9.10 Farm Hall
470(4)
Further Reading
474(3)
10 The Legacy of Manhattan
477(30)
10.1 The AEC and the Fate of International Control
477(6)
10.2 Joe-1, the Super, the P-5, and Nuclear Proliferation
483(8)
10.3 A Brief Survey of Nuclear Tests and Current Deployments
491(5)
10.4 Nuclear Treaties and Stockpile Stewardship
496(6)
10.5 Epilogue
502(2)
Further Reading
504(3)
Glossary 507(12)
Index 519
The author holds a Ph.D. in Physics from the University of Waterloo (Canada) and has published over 30 technical and semi-popular-level papers on the Manhattan Project and related nuclear history in publications such as American Journal of Physics, The Physics Teacher, European Journal of Physics, Natural Science, American Scientist, Physics & Society and Physics in Perspective. In 2009 he was made a Fellow of the American Physical Society in recognition of his contributions to the history of both the physics and the development of nuclear weapons in the Manhattan Project.
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