The Development of Fission and the Nuclear Reactor
Nuclear transmutations had began in 1919 with an experiment by Earnest Rutherford. He demonstrated that nitrogen, when bombarded with alpha particles, can be turned into oxygen. During the 1920’s experiments continued, but collecting radioactive sources with a high enough intensity became hard. In 1931 the invention of the cyclotron and the Van de Graaff accelerator made a variety of other particles available, and strengthened nuclear studies. In 1934 Frederick Joliot discovered artificial radioactivity. The development of nuclear fission, the splitting of an elements heavy nucleus, like a uranium atom to form two lighter "fission fragments" as well as less massive particles as the neutrons, really began with the research of Enrico Fermi and his associates at the University of Rome, in Italy.
In 1934 it was known that atoms consisted of a nucleus, containing protons and neutrons, surrounded by electrons. It was also known that certain nuclei were radioactive. Radioactive nuclei emit alpha particles, which are pieces of nuclear matter containing two protons and two neutrons. After the alpha particle leaves the nucleus radium is changed into radon. If the radon gas is combined with several grams of beryllium then neutrons are found to be emitted. When the alpha particle enters a beryllium nucleus it provides enough kinetic energy for a neutron to burst out, leaving behind a carbon nucleus in the process. It was later determined that this energy could be harnessed by a nuclear reactor and used for power.
A nuclear reactor causes a interaction between two or more nuclei, nuclear particles, or radiation, causing fission. Nuclear reactors are used ...
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...one strives to use energy wisely, existing resources will last longer. Less damage to the environment will occur.
Thanks to the development of nuclear fission and the nuclear reactor, our society has seen many changes over the past 65 years. Nuclear energy has helped to take our country into the next era. From medical uses to powering submarines, nuclear energy has provided us with a much more advanced and efficient way of creating electricity and power.
Bibliography
Allison, Samuel. Constructive Uses of Atomic Energy. Freeport, NY: Harper& Row, Publishers, Inc, 1971.
Dietz, David. Atomic Science, Bombs and Power. New York, NY: Collier Books, 1962.
Graetzer, Hans. The Discovery of Nuclear Fission. New York: Van Nostrand Reinhold Company, 1971.
Williams, Robert. The American Atom. Philadelphia: University of Pennsylvania Press, 1984.
Physicists started to realize that stable nuclei can be converted to unstable nuclei. Through such process, they discovered that heavy nuclei can undergo nuclear fission. While testing, they added a neutron to an isotope of Uranium 235. This resulted Uranium 235 to become unstable and break down into Barium and Krypton, releasing two to three more neutrons. The breakdown of Uranium 235 is called “fission”.
Nuclear energy is used today for energy supply and about 15% of the world’s energy comes from nuclear power plants some forms of medicine such as nuclear medicine rely solely on nuclear technology. This technology was developed through the process of creating the first atomic bomb and would not exist if not for the advancements made during the Manhattan project.
Albert Einstein predicted that mass could be converted into energy early in the century and was confirmed experimentally by John D. Cockcroft and Ernest Walton in 1932. In 1939, Otto Hahn and Fritz Strassmann discovered that neutrons striking the element uranium caused the atoms to split apart. Physicists found out that among the pieces of a split atom were newly produced neutrons. These might encounter other uranium nuclei, caused them to split, and start a chain reaction. If the chain reaction were limited to a moderate pace, a new source of energy could be the result. The chain reaction could release energy rapidly and with explosive force.
Development of the Hydrogen Bomb In the world, there is little thing called power. Many countries want to have great power, few get it. Powers gave the Soviet Union and the U.S. the ability to dominate in wars. In the 1950’s during the Cold War these two countries had a race to see who could create the most powerful weapon the world has ever seen, the Hydrogen Bomb. Edward Teller, an atomic physicist, and Stanislaw Marcin Ulam, a mathematician, "who together developed the Teller-Ulam design in 1951" for the Hydrogen Bomb (Teller-Ulam Design).
Nuclear energy must be a consideration for the future with the rapidly depleting supply of fossil fuels. This type of energy can be created through nuclear fission and nuclear fusion. Nuclear fission is the splitting of a heavy atom into two or more parts, releasing huge amounts of energy. The release of energy can be controlled and captured for generating electricity. Nuclear fusion involves bombarding hydrogen atoms together to form helium. In the long run, nuclear fusion has greater potential than fission.
However, that doesn’t mean that we should not do something’s to conserve our resources because it can benefit you, but it also can benefit other people that may not have the same luxuries that other people have.
According to Merriam-Webster, nuclear fission is defined as “the splitting of an atomic nucleus resulting in the release of large amounts of energy” (Nuclear Fission). In the book Remembering the Manhattan Project: Perspectives on the Making of the Atomic Bomb and Its Legacy, Richard Rhodes, an American journalist and historian, states that fission was essentially discovered by accident. On December 21, 1938, German physicists, Otto Hahn and Fritz Strassman, were performing an experiment in which they bombarded uranium atoms with neutrons (Rhodes 17). They saw that this procedure created mutated atoms that had strange characteristics. Hahn and Strassman found that the neutrons split the nuclei of the uranium in half producing radioactive barium and krypton (Rhodes 18). Rhodes explains that the physicists observed that the reaction was extremely exothermic, producing about ten times the energy needed for the fission to occur. After publishing their findings, physicists all over the world recreated the experiment. After conducting his own fission experiment, Enrico Fermi, an Italian physicist at Colombia University, said, “A little bomb like that and it would all disappear” (qtd. Rhodes 19). Many of the world’s physicists came to the same conclusion; this reaction could be used to develop an atomic weapon. According to Rhodes, this discovery made the development of atomic weaponry seem essential to many countries because the only way to defend themselves against atomic weapons was to have similar weapons of their own.
It was Italian-born physicist and Nobel winner Enrico Fermi, and his colleagues at the University of Chicago who were responsible for this success (“Nuclear”).
After the United States developed the atomic at the end of World War II, interest in nuclear technology increased exponentially. People soon realized that nuclear technology could be used for electricity, as another alternative to fossil fuels. Today, nuclear power has its place in the world, but there is still a lot of controversy over the use of nuclear energy. Things such as the containment of radiation and few nuclear power plant accidents have given nuclear power a bad image. However, nuclear power is a reliable source of energy because it has no carbon emissions, energy is available at any time, little fuel is needed for a lot of energy, and as time goes on, it is becoming safer and safer.
Nuclear energy is a very powerful source of energy. Just a little bit is required to make large amounts of electricity, which powers 1 in 5 households in the U.S. Nuclear energy has been advanced over the years and has been relied on heavily by many countries today.
In 1939 rumor came to the U.S. that Germans had split the atom. The threat of the Nazis developing a nuclear weapon prompted President Roosevelt to establish The Manhattan Project. Oppenheimer set up a research lab in Los Alamos, New Mexico and brought the best minds in physics to work on the problem of creating a nuclear weapon. Although most the research and development was done in Los Alamos, there were over 30 other research locations throughout the project. After watching the first nuclear bomb test Oppenheimer was quoted as saying simply “It works.”.
I think that right now, fission is the only way that we can get more
ways. The use of electricity will reduces the usage of the earth’s resources such as gas and oil.
Nuclear energy is generated by a process called fission. Fission occurs within the reactor of a nuclear power plant when a neutron is fired at an atom of uranium causing it to split and release subsequent neutrons.1 These are able to crash into other uranium atoms causing a chain reaction and releasing a great deal of heat energy.
Nuclear fission takes place when a large, somewhat unstable isotope is bombarded by high-speed particles, usually neutrons. These neutrons are then sped up or accelerated and then slammed into the unstable isotope, causing it to fission, or break into smaller particles. An example of nuclear fission is when nuclear fission produces electricity inside nuclear reactors and is used to heat up the water to power the reactor. A pioneer in researching and discovering fission is Otto Hahn