рефераты конспекты курсовые дипломные лекции шпоры

Раздел Иностранные языки
/
SPECULATIONS BEFORE THE DISCOVERY OF FUSION

Реферат Курсовая Конспект

Выберите учебное заведение

SPECULATIONS BEFORE THE DISCOVERY OF FUSION

SPECULATIONS BEFORE THE DISCOVERY OF FUSION - раздел Иностранные языки, THE PRE_ATOMIC AGE Atomic Energy, Now Usually Called Nuclear Energy, ...

Atomic energy, now usually called nuclear energy,became a gleam in the eye of scientists in the early part of the 20th century. The possibility that the atom held a vast reservoir of energy was suggested by the large kinetic energy of the particles emitted in radioactive decay and the resultant large production of heat. In 1911, 15 years after the discovery of radioactivity, the British nuclear pioneer Ernest Rutherford called attention to the heat produced in the decay of radium, writing:

This evolution of heat is enormous, compared with that emitted in any known chemical reaction… The atoms of matter must consequently be regarded as containing enormous stores of energy which are only released by the disintegration of the atom.

At this time, however, Rutherford had no concrete idea as to the source of this energy. The magnitudes of the energies involved were gradually put on a more quantitative basis as information accumulated on the masses of atoms, but until the discovery of fission in 1938, there could be no real understanding of how this energy might be extracted. In the interim, however, important progress was made in understanding the basic structure of nuclei. Major steps included the discovery by Rutherford in 1911 that an atom has a nucleus, the discovery in 1932 of the neutron as a constituent of the nucleus, and a series of experiments undertaken in the 1930s by Enrico Fermi and his group in Rome on the interactions between neutrons and nuclei, which eventually led to the discovery of fission.

As these developments unfolded, there was general speculation about atomic energy. One of the earliest scientists to have thought seriously about the possibilities was Leo Szilard, who was later active in efforts to initiate the U.S. atomic bomb program and then to limit it. He attributed his first interest in the extraction of atomic energy to reading in 1932 a book by the British novelist H. G. Wells. Writing in 1913, Wells had predicted that artificially induced radioactivity would be discovered in 1933 (he guessed the actual year of discovery correctly!) and also predicted the production of atomic energy for both industrial and military purposes. In Szilard’s account, he at first “didn’t regard it as anything but fiction.” A year later, however, two things caused him to turn to this possibility more seriously: (1) He learned that Rutherford had warned that hopes of power from atomic transmutations were “moonshine”and (2) the French physicist Frederic Joliot discovered artificial radioactivity as predicted by H. G. Wells.

Szilard then hit upon a “practical” scheme of obtaining nuclear energy. At the time, it was thought that the beryllium-9 (⁹Be) nucleus was unstable and could decay into two alpha particles and a neutron. This was a misconception, based on an incorrect value of the mass of the alpha particle. Actually, ⁹Be is stable if only by a relatively small margin. In any event, Szilard thought that it might be possible to “tickle” the breakup of ⁹Be with a neutron and then use the extra neutron released in the breakup to initiate another ⁹Be reaction. In each stage, there is one neutron in and two neutrons out. This is the basic idea of a chain reaction. This particular chain reaction cannot work, as was soon realized, because too high a neutron energy is required to cause the breakup of ⁹Be, and even then, there is a net loss of energy in the process, not a gain.

Szilard tried to find other ways to obtain a chain reaction, but his efforts failed. Nonetheless, in the interim, he went so far as to have a patent on neutron-induced chain reactions entrusted to the British Admiralty for secret safekeeping, the military potential of nuclear energy being important in his thinking. However, the key to a realizable chain reaction—fission of heavy elements—eluded Szilard as well as all others.

In these early speculations, there was an awareness of the potential of atomic energy for both military and peaceful applications, and the latter loomed large in the thinking of some scientists. For example, in a document dated July 1934, Szilard explained planned experiments that, if successful, would lead to power production. . .on such a large scale and probably with so little cost that a sort of industrial revolution could be expected; it appears doubtful for instance whether coal mining or oil production could survive after a couple of years.

Along the same lines, Joliot prophesied in his 1935 Nobel Prize acceptance speech: “Scientists, disintegrating or constructing atoms at will, will succeed in obtaining explosive nuclear chain reactions. If such transmutations could propagate in matter, one can conceive of the enormous useful energy that will be liberated.”

Развернуть

Открыть в широком формате

– Конец работы –

Эта тема принадлежит разделу:

THE PRE_ATOMIC AGE

TEXT A... THE PRE ATOMIC AGE...

Если Вам нужно дополнительный материал на эту тему, или Вы не нашли то, что искали, рекомендуем воспользоваться поиском по нашей базе работ: SPECULATIONS BEFORE THE DISCOVERY OF FUSION

Что будем делать с полученным материалом:

Если этот материал оказался полезным ля Вас, Вы можете сохранить его на свою страничку в социальных сетях:

Все темы данного раздела:

Pre-reading tasks
1. The text you are to read is headlined “The Pre-atomic Age”. In your opinion, what can it run about? 2. Think of and write down 4-5 questions the answers to which you expect

THE PRE-ATOMIC AGE
Ancient Greek philosophers were the first known scientists to suggest that matter was made up of small, unseen elements, a theory described as “atomism” by Democritus of Abdera in the 5th century В

Comprehension check
1. Choose the best ending a, b, or c to complete the sentences. 1. Ancient Greek philosophers a) were the first to suppose that matter was composed of small

Vocabulary work
1. The words given in A are used in the text above. Find their synonyms in B. A B to suggest

Pre-reading tasks
1. Have you ever heard about John Dalton, Heinrich Geissler, William Crookes? 2. Can you recollect what they are famous for? What contributions to science did they make?

FURTHER DEVELOPMENT OF ATOMIC THEORY IN THE 19th CENTURY
By the early 19th century, atomism had re-entered scientific thought, particularly chemistry, where it strongly influenced British philosopher and m

Comprehension check
1. Consult the text above and complete the following sentences. 1. Atomism reentered scientific ... in the 19th century. 2. Dalto

Pre-reading tasks
1. Do you know: a) the names of Henri Becquerel and Pierre and Marie Curie? What are they famous? b) when the Curies and Becquerel worked? c) what

HENRI BECQUEREL AND THE CURIES’ DISCOVERIES
X-rays were only the first, surprise of the 1890s. New rays were soon detected which proved to be even more profoundly alien to known science. The French p

Comprehension check
1. Match the discoveries and inventions with the names of scientists. Marie Curie found out that uranium salt emitted pen

Vocabulary work
1. There are some words given in bold type in the text. Choose their synonyms in the box below. to emit to discover

Pre-reading tasks
1. The text you are going to read is headlined “Further advances in the field of radioactivity”. In your opinion, - what does it run about? - what

FURTHER ADVANCES IN THE FIELD OF RADIOACTIVITY
Their work, which led to the Nobel Prize for both (and two prizes for Marie, a rare honor), confirmed the cathode-ray research of British scientist J. J.Thomson, who had experimente

RADIOACTIVITY AND RADIOACTIVE EXPOSURES
Radioactivity and the associated radiation exposures are sometimes thought of as environmental problems that have been created by modern science and technology. However, substantial

Pre-reading tasks
1. If you were asked to make a report on the theme “From nuclear reactions to nuclear fission” which events would you include in it and what scientists would you mention? Comment

FROM NUCLEAR REACTIONS TO NUCLEAR FISSION
In 1913, Neils Bohr, a brilliant Danish physicist and a post-doctoral student of Rutherford’s, elaborated and modified Rutherford’s model by incorporating quantum mechanical (the study of mechanica

Comprehension check
1. Some dates, namely years are mentioned in the text. Match them with the events described. J. Chadwick discovered the

Vocabulary work
1. The words given in two columns of the box are mentioned in the text and they have similar meanings. Find and name these pairs. A

Pre-reading tasks
1. The paragraphs of the text given below are jumbled. Arrange them in the logical order. Comment on your choice of paragraphs succession. 2. You are sure to know the name of a f

Pre-reading tasks
1. Otto Hahn, Lise Meitner, Fritz Strassman made several key breakthroughs revealing secrets of nuclear fission. Can you give any information about these scientists? If nothing is known to you,

REVEALING SECRETS OF NUCLEAR FISSION
Enrico Fermi and his colleagues missed a reaction in the uranium which would later be determined to be the first example of nuclear fission. The task, therefore, fell tо scientist Otto Hahn, who wa

Comprehension check
1. Match the names of scientists with the information about them. (Sometimes information refers to more than one scientist). Otto Hahn co

Vocabulary work
1. Find synonyms or antonyms among the words given in italics in the text and name them. Be careful as the verbs are used in different forms 2. Fill in the tab

Follow-up activities
1. In pairs, discuss the information given in the text. 2. Make up a short report based on the text. (Presenting only key ideas). 3. Find some add

FISSION AND THE FIRST REACTORS
Fission of uranium was discovered—or, more precisely, recognized for what it was—in 1938. Scientists quickly recognized that large amounts of energy are released in fission and that

Pre-reading tasks
1.In the text below the names of Henri Becquerel, Pierre and Marie Curie, Ernest Rutherford are mentioned. Recollect what each of them is famous for. The table below will help you to fulfill the

RADIOACTIVE MATERIALS AS SOURCES OF NUCLEAR ENERGY
Radioactive … involves the spontaneous disintegration of an atomic nucleus. As the nucleus …, various particles as well as high-energy electromagnetic waves are … . Ra

Pre-reading tasks
1. The text you are to read is headlined “Boiling water reactors”. In your opinion, what problems are discussed in this text? 2. If you were to make a report on this theme wha

BOILING WATER REACTORS
Consider the simplified schematic of one of the most common types of nuclear reactor, a boiling water reactor. (See the accompanying illustration.) Boiling water reactors were firs

GLOBAL WARMING AND NUCLEAR POWER
The idea behind global warming is simple enough. Earth’s atmosphere retains some of the heat that Earth receives from the Sun. The amount of heat retained depends upon the chemical composition of t