/

Physics of the Manhattan Project

Reed Bruce Cameron
Heftet / 2022 / Engelsk

Produktdetaljer

ISBN
9783030613754
Publisert
2022-01-04
Utgave
4. utgave
Utgiver
Springer Nature Switzerland AG
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Upper undergraduate, P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
256

Forfatter
Reed Bruce Cameron

Biografisk notat

Bruce Cameron Reed is the Charles A. Dana Professor of Physics at Alma College (Michigan), emeritus. He has published five textbooks and over 50 journal papers and semi-popular articles on the Manhattan Project; three of the texts are with Springer (one of these is currently in press, a popular treatment of the Project). In 2009, he was elected a Fellow of the American Physical Society in recognition of his contributions to promoting understanding of the history and physics of the Manhattan Project.

Physics of the Manhattan Project

Reed Bruce Cameron
Heftet / 2022 / Engelsk
Reed Bruce Cameron
Heftet / 2022 / Engelsk
772,-
Laveste pris siste 30 dager: 772,-
Levering 10-30 dager
Klikk og hent

“The volume is targeted at readers with an advanced undergraduate physics background, with the goals of explicating the principles behind the fission bombs completed in 1945, and of using these principles to illuminate more general areas of physics, such as electromagnetism and statistical mechanics. … both physicists and historians might find it most useful as a reference work.” (Joseph D. Martin, Metascience, Vol. 30, August 25, 2021)

The development of nuclear weapons during the Manhattan Project is one of the most significant scientific events of the twentieth century. This revised and updated 4th edition explores the challenges that faced the scientists and engineers of the Manhattan Project. It gives a clear introduction to fission weapons at the level of an upper-year undergraduate physics student by examining the details of nuclear reactions, their energy release, analytic and numerical models of the fission process, how critical masses can be estimated, how fissile materials are produced, and what factors complicate bomb design. An extensive list of references and a number of exercises for self-study are included. 

Revisions to this fourth edition include many upgrades and new sections. Improvements are made to, among other things, the analysis of the physics of the fission barrier, the time-dependent simulation of the explosion of a nuclear weapon, and the discussion of tamped bomb cores.New sections cover, for example, composite bomb cores, approximate methods for various of the calculations presented, and the physics of the polonium-beryllium "neutron initiators" used to trigger the bombs.

The author delivers in this book an unparalleled, clear and comprehensive treatment of the physics behind the Manhattan project.

Les mer

Preface.- Preamble: Fundamental Data On Little Boy and Fat Man.- Energy Release in Nuclear Reactions, Neutrons, Fission, and Characteristics of Fission.- Critical Mass, Efficiency, and Yield.- Producing Fissile Material.- Complicating Factors.- Miscellaneous Calculations.- Appendices  (A-K).

Les mer

The development of nuclear weapons during the Manhattan Project is one of the most significant scientific events of the twentieth century. This revised and updated 4th edition explores the challenges that faced the scientists and engineers of the Manhattan Project. It gives a clear introduction to fission weapons at the level of an upper-year undergraduate physics student by examining the details of nuclear reactions, their energy release, analytic and numerical models of the fission process, how critical masses can be estimated, how fissile materials are produced, and what factors complicate bomb design. An extensive list of references and a number of exercises for self-study are included. 

Revisions to this fourth edition include many upgrades and new sections. Improvements are made to, among other things, the analysis of the physics of the fission barrier, the time-dependent simulation of the explosion of a nuclear weapon, and the discussion of tamped bomb cores.New sections cover, for example, composite bomb cores, approximate methods for various of the calculations presented, and the physics of the polonium-beryllium "neutron initiators" used to trigger the bombs.

The author delivers in this book an unparalleled, clear and comprehensive treatment of the physics behind the Manhattan project.

Les mer
Only treatment of the physics of Manhattan Project-era fission bombs prepared by a recognized expert on the topic Surveys all aspects of the physics of fission weapons, from the characteristics of fission to analyzing critical mass, bomb yield, how to trigger the nuclear explosion in the first place, and complicating factors such as the probability that a bomb will “pre-detonate” Technical points illustrated with numerous graphs Includes student exercises, with answers
Les mer
GPSR Compliance The European Union's (EU) General Product Safety Regulation (GPSR) is a set of rules that requires consumer products to be safe and our obligations to ensure this. If you have any concerns about our products you can contact us on ProductSafety@springernature.com. In case Publisher is established outside the EU, the EU authorized representative is: Springer Nature Customer Service Center GmbH Europaplatz 3 69115 Heidelberg, Germany ProductSafety@springernature.com
Les mer

Relaterte produkter

“The volume is targeted at readers with an advanced undergraduate physics background, with the goals of explicating the principles behind the fission bombs completed in 1945, and of using these principles to illuminate more general areas of physics, such as electromagnetism and statistical mechanics. … both physicists and historians might find it most useful as a reference work.” (Joseph D. Martin, Metascience, Vol. 30, August 25, 2021)

The development of nuclear weapons during the Manhattan Project is one of the most significant scientific events of the twentieth century. This revised and updated 4th edition explores the challenges that faced the scientists and engineers of the Manhattan Project. It gives a clear introduction to fission weapons at the level of an upper-year undergraduate physics student by examining the details of nuclear reactions, their energy release, analytic and numerical models of the fission process, how critical masses can be estimated, how fissile materials are produced, and what factors complicate bomb design. An extensive list of references and a number of exercises for self-study are included. 

Revisions to this fourth edition include many upgrades and new sections. Improvements are made to, among other things, the analysis of the physics of the fission barrier, the time-dependent simulation of the explosion of a nuclear weapon, and the discussion of tamped bomb cores.New sections cover, for example, composite bomb cores, approximate methods for various of the calculations presented, and the physics of the polonium-beryllium "neutron initiators" used to trigger the bombs.

The author delivers in this book an unparalleled, clear and comprehensive treatment of the physics behind the Manhattan project.

Les mer

Preface.- Preamble: Fundamental Data On Little Boy and Fat Man.- Energy Release in Nuclear Reactions, Neutrons, Fission, and Characteristics of Fission.- Critical Mass, Efficiency, and Yield.- Producing Fissile Material.- Complicating Factors.- Miscellaneous Calculations.- Appendices  (A-K).

Les mer

The development of nuclear weapons during the Manhattan Project is one of the most significant scientific events of the twentieth century. This revised and updated 4th edition explores the challenges that faced the scientists and engineers of the Manhattan Project. It gives a clear introduction to fission weapons at the level of an upper-year undergraduate physics student by examining the details of nuclear reactions, their energy release, analytic and numerical models of the fission process, how critical masses can be estimated, how fissile materials are produced, and what factors complicate bomb design. An extensive list of references and a number of exercises for self-study are included. 

Revisions to this fourth edition include many upgrades and new sections. Improvements are made to, among other things, the analysis of the physics of the fission barrier, the time-dependent simulation of the explosion of a nuclear weapon, and the discussion of tamped bomb cores.New sections cover, for example, composite bomb cores, approximate methods for various of the calculations presented, and the physics of the polonium-beryllium "neutron initiators" used to trigger the bombs.

The author delivers in this book an unparalleled, clear and comprehensive treatment of the physics behind the Manhattan project.

Les mer
Only treatment of the physics of Manhattan Project-era fission bombs prepared by a recognized expert on the topic Surveys all aspects of the physics of fission weapons, from the characteristics of fission to analyzing critical mass, bomb yield, how to trigger the nuclear explosion in the first place, and complicating factors such as the probability that a bomb will “pre-detonate” Technical points illustrated with numerous graphs Includes student exercises, with answers
Les mer
GPSR Compliance The European Union's (EU) General Product Safety Regulation (GPSR) is a set of rules that requires consumer products to be safe and our obligations to ensure this. If you have any concerns about our products you can contact us on ProductSafety@springernature.com. In case Publisher is established outside the EU, the EU authorized representative is: Springer Nature Customer Service Center GmbH Europaplatz 3 69115 Heidelberg, Germany ProductSafety@springernature.com
Les mer

Produktdetaljer

ISBN
9783030613754
Publisert
2022-01-04
Utgave
4. utgave
Utgiver
Springer Nature Switzerland AG
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Upper undergraduate, P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
256

Forfatter
Reed Bruce Cameron

Biografisk notat

Bruce Cameron Reed is the Charles A. Dana Professor of Physics at Alma College (Michigan), emeritus. He has published five textbooks and over 50 journal papers and semi-popular articles on the Manhattan Project; three of the texts are with Springer (one of these is currently in press, a popular treatment of the Project). In 2009, he was elected a Fellow of the American Physical Society in recognition of his contributions to promoting understanding of the history and physics of the Manhattan Project.

Relaterte produkter