ning rapidity, while scientists known only to their peers -- Szilard, Teller, Oppenheimer, Bohr, Meitner, Fermi, Lawrence, and yon Neumann -- stepped from their ivory towers into the limelight Rhodes provides broad information on the biographical background and scientific accomplishments of the international collaboration of scientists that culminated in the construction of the first atomic bomb. In 1939, a number of scientists became responsive of the theoretical prospect of creating an atomic bomb, a weapon of mass destruction vastly beyond the potential of existing military arsenals. But it was not until the United States entered World War II, late in 1941 that priority was given to funding and organizing research into the creation of such a weapon in a secret operation referred to as the Manhattan Project.
The first test atomic bomb, called Trinity, was exploded in the New Mexico desert on July 16, 1945. On August 6, an atomic bomb was dropped on the Japanese city of Hiroshima. Three days later, another atomic bomb was dropped on the Japanese city of Nagasaki. On August 14, 1945, Japan agreed to an unconditional surrender to the Allies, thus ending World War II. Rhodes addresses the hard moral and ethical dilemmas faced by the scientists of the Manhattan Project, particularly the implications of creating such a weapon of mass destruction. Originally concerned with ‘‘pure’’ scientific research, those who worked on the Manhattan Project were forced to consider the ultimate consequence of their research efforts on the future of the human race. “THE MAKING OF THE ATOMIC BOMB provides a valuable insight into the developments within physics and chemistry which directly lead to the Manhattan Project with its parallel development of the first fission bombs and their use against Imperial Japan”(ShoppingAisles.com). Numerous readers have commended this authors authentic talent in writing, me as well take my hats off for his great job. He is unquestionably
This book’s detail is the full story of how the bomb was developed, from the turn-of-the-century discovery of the vast energy locked inside the atom to the dropping of the first bombs on Japan. A small number of great discoveries have evolved so swiftly - or have been so…
It is a process that involves a series of steps including; problem identification, analysis of alternatives, choosing the best option, implementing, observing the results and taking responsibility. Decision making as an activity can be programmed or no-programmed which are mutually exclusive.
1. In my opinion, these examples paint a misleading picture, but an unfair one definitely not. All the necessary information, past and present, was out in the open for everyone to evaluate. Unfair would mean that crucial factors were purposely omitted, that for example, T.
Its underlying thesis statement is that domestic manufacturing is important and critical to the long-term health of the overall economy of the United States (Liveris, 2011). In this book, Liveris somehow laments of how the US used to make things, how they used to be amazing innovators and unmatched economic leaders.
b. Who developed it? The law of conservation of mass was developed by Antoine Laurent Lavoisier, a French chemist, in 1789 (Lavoisier and the Law of Conservation of Mass). c. Describe the experiments this person carried out that led to the law’s formulation.
From the theoretical debate of nuclear energy to the bright glare of Trinity there was duration of hardly more than twenty-five years. What began as merely an interesting speculative problem in physics grew into the Manhattan Project, and then into the Bomb with frightening rapidity, while scientists known only to their peers -- Szilard, Teller, Oppenheimer, Bohr, Meitner, Fermi, Lawrence, and yon Neumann -- stepped from their ivory towers into the limelight Rhodes provides broad information on the biographical background and scientific accomplishments of the international collaboration of scientists that culminated in the construction of the first atomic bomb.
Instead, he argues that a mass nuclear disarmament movement has mobilized millions of people worldwide and has pressured governments to adopt nuclear disarmament agreements. In short, Wittner contends that the antinuclear movement--not "peace through strength"--has saved the world from nuclear Armageddon.
"Viewed from the standpoint of a sane and ambitious social order, it is difficult to understand and it would be tedious to follow the motives that plunged mankind into the war that fills the histories of the middle decades of the twentieth century" (Wells).
The nuclear threat is less cruel today than it was in 1970 when the Non-Proliferation Treaty entered into force". He bases this evaluation on the fact that "the number of nuclear weapons in the world has declined from a peak of 65,000 in 1986, to roughly 27,000 today".
The author states that the atomic weapons of this book make relatively small, but on-going explosions. Plus, it seems that at the time they knew little about the effects of radiation on living organisms. Scientists of the time were well conscious that the slow natural radioactive decay of elements continues for thousands of years.
The information presented in the book is detailed, comprehensive and extensive. The title of the book also depicts that the author has discussed the transformation of war and weapons form crossbow era to the modern hydrogen bomb. The
7 pages (1750 words)Book Report/Review
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