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Прочитайте текст. Расскажите об основных этапах развития сверхпроводимости и о тех ученых, которые внесли свой вклад в исследование сверхпроводимости

Superconductivity

According to the prominent scientist in this country V.L. Ginz-burg the latest world achievements in the field of superconductivity mean a revolution in technology and industry. Recent spectacular breakthroughs1 in superconductors may be compared with the physics discoveries that led to electronics and nuclear power. They


are likely to bring the mankind to the threshold of a new technolog­ical age. Prestige, economic and military benefits could well come to the nation that first will master this new field of physics. Super­conductors were once thought to be physically impossible. But in 1911 superconductivity was discovered by a Dutch physicist K. Onnes, who was awarded the Nobel Prize in 1913 for his low-temperature research. He found the electrical resistivity of a mer­cury wire to disappear suddenly when cooled below a temperature of 4 Kelvin (-269 °C). Absolute zero is known to be 0 K. This dis­covery was a completely unexpected phenomenon. He also discov­ered that a superconducting material can be returned to the normal state either by passing a sufficiently large current through it or by applying a sufficiently strong magnetic field to it. But at that time there was no theory to explain this.

For almost 50 years after K. Onnes' discovery theorists were unable to develop a fundamental theory of superconductivity. In 1950 physicists Landau and Ginzburg made a great contribution to the development of superconductivity theory. They introduced a model which proved to be useful in understanding electromagnetic properties of superconductors. Finally, in 1957 a satisfactory the­ory was presented by American physicists, which won for them in 1972 the Nobel Prize in physics. Research in superconductors be­came especially active since a discovery made in 1986 by IBM2 sci­entists in Zurich. They found a metallic ceramic compound to become a superconductor at a temperature well above3 the previ­ously achieved record of 23 K.

It was difficult to believe it. However, in 1987 American physi­cist Paul Chu informed about a much more sensational discovery: he and his colleagues produced superconductivity at an unbeliev­able before temperature 98 К in a special ceramic material. At once in all leading laboratories throughout the world superconductors of critical temperature 100 К and higher (that is, above the boiling temperature of liquid nitrogen) were obtained. Thus, potential technical uses of high temperature superconductivity seemed to be possible and practical. Scientists have found a ceramic material that works at room temperature. But getting superconductors from the laboratory into production will be no easy task. While the new superconductors are easily made, their quality is often uneven. Some tend to break when produced, others lose their superconduc­tivity within minutes or hours. All are extremely difficult to fabri­cate into wires. Moreover, scientists lack a full understanding of how ceramics become superconductors. This fact makes develop-


ing new substances largely a random process. This is likely to continue until theorists give a fuller explanation of how supercon­ductivity is produced in new materials.

Notes to the Text

1. spectacular breakthroughs — захватывающие открытия, достижения (переворот)

2. IBM — компания Ай Би Эм

3. well above — намного выше

УПРАЖНЕНИЯ

Упражнение 10. Просмотрите текст 11А и ответьте на вопросы.

1. What is this text about? 2. What is the phenomenon of super­conductivity? 3. Who was the first to discover the phenomenon? 4. What scientists do you know who have worked in the field of su­perconductivity? 5. What materials are the best superconductors? 6. Is it possible to return superconducting materials to the normal state? 7. How can it be done? 8. In what fields of science and tech­nology can the phenomenon of superconductivity be used?

Упражнение 11. Укажите, какие утверждения соответствуют содержанию текста 11 А. Исправьте неправильные утверждения.

1. The latest achievements in superconductivity mean a revolu­tion in technology and industry. 2. Superconductors were once thought to be physically impossible. 3. The achievements in super­conductivity cannot be compared with the discoveries that led to electronics and nuclear power. 4. The electrical resistivity of a mer­cury wire disappears when cooled below 4 K. 5. A superconducting material cannot be returned to the normal state. 6. Landau and Ginzburg introduced a model which was useful in understanding electromagnetic properties of superconductors. 7. Scientists from IBM found a ceramic material that became a superconductor at a temperature of 23 K. 8. Potential technical uses of high tempera­ture superconductivity are unlikely to be possible and practical.

Упражнение 12. Найдите в тексте ПА инфинитивные конструкции.

Упражнение 13. Сравните пары предложений, переведите.

1. Designers report a new manned craft to be able to submerge to the depth of 21,000 feet. A new manned craft is reported to be able to submerge to the depth of 21,000 feet. 2. We know radio navigation


stations to be located at different places around the world to guide the pilots. Radio navigation stations are known to be located all over the world to guide the pilots. 3. People considered dirigibles to be too slow and unreliable, that is why they were not used for a long time. Dirigibles were considered to be slow and unreliable. 4. Ex­perts expect the new submersible craft to move round the ocean floor like a sports car. The new submersible craft is expected to move round the ocean floor like a sports car. 5. Scientists in many countries consider propeller engines to be much more economical. Propeller engines are considered to be much more economical. 6. We know propeller planes to fly slower than jet planes, therefore, a new ventilator engine with a propeller has been built. But as pro­peller planes are known to fly slower than jet planes a new ventila­tor engine with a propeller has been built.

Упражнение 14. Найдите предложения со сложным подлежащим, пере­ведите.

1. The phenomenon of superconductivity appears to have been discovered as early as 1911. 2. Before 1911 superconductivity was as­sumed to be impossible. 3. Recent discoveries in superconductivity made scientists look for new conducting materials and for practical applications of the phenomenon. 4. The latest achievements in the field of superconductivity are certain to make a revolution in tech­nology and industry. 5. Recommendations from physicists will al­low the necessary measures to be taken to protect the air from pollution. 6. Lasers are sure to do some jobs better and at much lower cost than other devices. 7. M. Faraday supposed a light beam to reverse its polarisation as it passed through a magnetised crystal. 8. Superconductors are likely to find applications we don't even think of at present. 9. A Dutch physicist found a superconducting material to return to normal state when a strong magnetic field was applied. 10. Properties of materials obtained in space prove to be much better than those produced on Earth. 11. There are prospects for lasers to be used in long distance communication and for trans­mission of energy to space stations. 12. The electrical resistivity of a mercury wire was found to disappear when cooled to —269 °C. 13. Additional radio transmitters let the pilot make his approach to an airport by watching his flight instruments. 14. There seems to be a lot of alloys and compounds that become superconductors under certain conditions.


УПРАЖНЕНИЯ ДЛЯ САМОСТОЯТЕЛЬНОЙ РАБОТЫ Упражнение 15. Определите, к какой части речи относятся слова.

resistant, resist, resistance, resistor, resistivity; superconduc­tivity, superconductive, superconductor, superconducting; theory, theorist, theoretical, theorize; physics, physicist, physical, physi­cally; explain, explainable, explanation; store, storage, storable.

Упражнение 16. Найдите русскому слову соответствующее английское.

достижение — achievable, achievement, achieve; электронный — electronics, electronic, electron; легче — easily, easy, easier; удовлетворять — satisfy, satisfactory, satisfaction; действительно — reality, realise, really.

Упражнение 17. Переведите слова с суффиксом -ward (-wards), обозна­чающим направление.

toward(s), forward(s), backward(s), afterward(s), downward(s), outward(s), northward(s), southward(s), rearward(s), home­ward^), sideward(s), windward(s), upward(s).

Упражнение 18. Найдите слова с нестандартным образованием множест­венного числа.

There are a few words taken over from Latin and Greek that still retain their original plurals in English. In some cases we can use either. Formulas is seen more often than formulae. Antenna — antennae (pi). Many think that media, strata and phenomena are all singular. They агепЧ. Data, a plural, is used both ways.

Here are some foreign singular and plural forms of words often used in English. Latin: medium (a means of mass communication) — media, nucleus (ядро атома) — nuclei; Greek: analysis — analyses; axis — axes; crisis — crises; hypothesis — hypotheses; phenomenon — phenomena.

Упражнение 19. Найдите синонимы и антонимы.

below — above; useful — useless; easy — difficult; field — sphere; to meet demands — to meet requirements (needs); full — complete; to use — to apply; to get — to obtain; moreover — be­sides; sufficient — enough; likely — unlikely; to continue — to dis­continue; conductivity — nonconductivity; to vary — to change; to lead to — to result in; recent — latest; advantage — disadvantage;


low — high; believable — unbelievable; to lose — to find; tiny — huge; liquid — solid; unexpected — expected; common — ordinary.

Упражнение 20. Запомните выделенные слова и словосочетания.

1. The climate in this part of the world is the most suitable for people to live in. It is neither too hot, nor too cold. 2. Many lasers give off invisible radiation either infrared or ultraviolet. 3. There is the tropical zone on either side of the Equator. 4. It is possible to divide all countries into classes: developed and developing coun­tries. Various criteria may be used to include a particular country in either of the two categories. 5. The numbers are either odd or even. 6. Such satellites can contain either television cameras or photo­graphic equipment for transmitting pictures to Earth.

«I see you are not a scientific person, my friend».

«Why do you say that?»

«You do not take good care of your car. You have no water in your radiator».

«I thought that I had plenty of water».

«You have no oil either. You will ruin your car if you run it without oil».

«Have I plenty of water in the storage battery?»

«No, you haven't a drop».

«I haven't any air in my spare tire, either».

«Have you any extra tubes?»

«No, I haven't, but I have a good tube in the spare tire. I had four new tubes when I met a man who was having tire trouble. He hadn't an extra tube. I let him have my tubes. I suppose he was not a scientific person either. His car was in a worse condition than mine is.»

How Did It All Begin?

Do you ever wonder why people do or wear, or say certain things? Why do they shake hands when they meet? Many things you say and do could have reasons that date back thousands of years.

For example, it is very strange to think that shaking hands — a friendly custom (обычай) today — was originally a means of keep­ing a stranger's (незнакомец) weapon hand where it could do no harm.


In primitive times, man never went about without some weapon of defence — usually a club (дубинка). Upon meeting a stranger a man could either stand and fight or turn away before discovering if the stranger was a friend or an enemy, or greet the stranger and possibly become friends.

But how could he be sure the stranger would be friendly and how could the stranger trust in return? There was only one way to show friendly intentions and that was for both men to lay down their weapons and hold out empty hands. For added insurance, each would reach for the other's right hand. As long as both men's hands were safely clasped, neither could harm the other. Therefore, a handshake originally was a means of self-defence.

Упражнение 21. Дайте недостающие формы глаголов и запомните их. teach, fighting, wore, frozen, letting, carried on, laid down.

Упражнение 22. Прочитайте и переведите текст без словаря.

The ancient Greeks are known to have been great watchers of the sky and also great thinkers. As they watched the sky night after night, it was natural for them to think that the Earth stood and the stars, planets, sun and moon were moving round the earth in space. They thought the sun to be between Venus and Mars. To explain the movement of the planets, however, was very difficult. Then one day a young scientist named Copernicus at Krakow University in Poland supposed that the sun and not the Earth should be the centre of everything. He was the first to explain properly our solar system. The ancient Greeks had made the mistake of thinking that because the stars and planets seemed to move as they looked at the sky, the Earth must stand. If you sat in a train and looked out at the trees, it would be easy to understand their mistake. The trees seem to be moving backwards, but really it is the train that is moving for­wards.

CONVERSATION Exercise 1. Answer the questions.

1. What field of science studies the phenomenon of supercon­ductivity? (physics) 2. What can a nation have if it is the first to master this new field of science? (prestige, scientific advantage, economic and military benefits) 3. What is superconductivity? (the loss of electrical resistivity by a material on being cooled to temper-


atures near absolute zero) 4. What is absolute zero? (0 Kelvin or —273 °C) 5. What scientists worked in the field of superconductivity research? (Dutch physicist K. Onnes, Russian physicists L. Landau and V. Ginzburg, and a number of American scientists) 6. What materials are the best super conductors? (ceramic materials) 7. What are the potential technical uses of superconductivity? (nu­clear research, power generation, electronics, etc.)

Exercise 2. Make a sentence out of the two parts.


1. Recent achievements in super­conductivity research are

2. They may be compared with

3. Superconductivity is known to

4. While carrying out his low temperature research he

5. For 50 years after the discov­ery there was no

6. In the 1950s Russian and
American physicists made a great
contribution

7. Research in the field of super­
conductivity became especially
active


1. fundamental theory to explain this unexpected phenomenon.

2. found the electrical resistivity of mercury to disappear when cooled to the temperature of 4 Kelvin.

3. to the development of super­conductivity theory.

4. have been discovered by a
Dutch physicist.

5. of great importance for science and technology.

6. since the discovery of a super­conductive metallic ceramics.

7. physics discoveries that led to the development of electronics and nuclear power.


Exercise 3. Read and learn.

Professor Brown: Hello, glad to meet you, prof. Smith, haven't seen

you for ages, since I left the University.

Prof. Smith: How do you do, prof. Brown, I haven't expected to

see you here. Are you interested in superconductiv­ity problems? By the way, how are you making your living? I haven't heard anything about your work lately. I spent the last two years in Geneva as a member of a special UN committee.

Pr. В.: I am with Bell Telephone company. It is a global

leader in electrical engineering. And I deal with new technologies.


Рг. S.: Oh, your work is so important nowadays. Mankind needs en­ergy for producing light, heat and transportation. This is the basis of our civilization.

Рг. В.: Sure, that's so. And as the population grows, so does the de­mand for better quality of life. Energy consumption increases daily.

Pr. S.: But with it the threat to clean air, pure water and soil in­creases too. These natural resources are not inexhaustible.

Pr. В.: Of course. We are developing new industrial systems to im­prove productivity, reducing the amount of raw materials and energy required. Our new advanced systems help to conserve energy too.

Pr. S.: In Geneva one of the problems I studied was the problem to generate, transmit and distribute energy with great efficiency. I think Doctor Carter's work in this field is the most promis­ing. From the Agenda (повестка дня) we have all just re­ceived you can see that Dr.Carter will speak on his work tomorrow.

Pr.B.: I have already seen this paper on the program. I won't miss (пропустить) it. Have you attended the morning session?

Pr. S.: The most interesting was the discussion on the problems of the balance between the needs of mankind and the conserva­tion of the natural resources.

Pr. В.: Have you taken part in it?

Pr. S.: Certainly. I've spoken about clean and efficient technology in the field of electrical engineering.

Exercise 4. Comment on the following statement.

The teaching routine procedures (заведенный порядок, об­щеизвестная и установившаяся практика) ought to be the main aim of education.

One point of view: Routine makes life and experiments easier, it saves energy; ex­perience of past generations takes on the form of routine; routine helps us to avoid risks; thanks to routine we don't have to rediscover things; routine ensures efficiency while experimenting, it enables us to achieve a high level of predictability.

A contrary point of view: Routine kills invention and discovery, it is opposite to creativity; it is necessary to avoid routine so that the world can be changed for the better; young people ought to develop their imagination, but not learn routine; routine is the exact opposite of youthfulness; routine is boring; the best idea would be to com­bine routine with improvisation.


Exercise 5. Conduct a round-table discussion on «Superconductivity Re­search».

Use texts 11 А, В, С as a basis for the preparation of oral talks and discussion. Useful words and phrases of scientific communication are given in exercise 5 (see Les­son 10 «Conversation»).

Exercise 6. Read and smile.

For a long time Edison's visitors wondered (удивлялись) why the gate (калитка) to his garden was so difficult to open.

Once his friend said: «The gate to your garden is so heavy. I have to use all my strength to open it. I cannot understand this. You are such a brilliant man. You can invent something better». «The gate seems to be all right», Edison answered with a smile. «The fact is that it is a brilliant invention.» «You are laughing at me, sir!» «No, I am not. The gate is connected to a pump. Every­body who comes in pumps twenty litres of water out of the well (колодец).»

An absent-minded (рассеянный) professor was once travelling by electric train, and when the conductor came the professor couldn't find his ticket.

«It's all right, sir», said the conductor who knew the professor very well, «I'll come at the next station».

But at the next station there was the same difficulty, the profes­sor couldn't find his ticket anywhere.

«It's all right, sir, it doesn't matter (не имеет значения)», said the conductor. «No, no I must find the ticket, I must know where I'm going to!»

Text 11B Прочитайте текст и озаглавьте его.

Superconductivity is a state of matter that chemical elements, compounds and alloys assume on being cooled to temperatures near to absolute zero. Hence, a superconductor is a solid material that abruptly loses all resistance to the flow of electric current when cooled below a characteristic temperature. This temperature differs for different materials but generally is within the absolute zero (-273 °C). Superconductors have thermal, electric and magnetic properties that differ from their properties at higher temperatures and from properties of nonsuperconductive materials.


Now hundreds of materials are known to become superconduc­tors at low temperature. Approximately 26 of the chemical ele­ments are superconductors. Among these are commonly known metals such as aluminium, tin, lead and mercury and several less common ones.

Most of the known superconductors are alloys or compounds. It is possible for a compound to be superconducting even if the chemical elements constituting it are not.

Text 11C

Прочитайте текст и найдите информацию о применении сверхпроводни­ков в будущем. Изложите кратко содержание текста по-английски.

New Hope for Energy

Recently some ceramic materials have been found to be super­conductors. Superconducting ceramics are substances which can transmit electric currents with no loss of energy at temperatures much higher than conventional superconductors (that is, at the temperature of liquid nitrogen).

One use for the new superconductors would be to replace those that need the extreme cold of liquid helium — huge superconduct­ing electromagnets used in nuclear magnetic resonance research, atomic particle acceleration and research reactors.

Other types of electromagnets made with superconductors could be used to lower the cost of electric generation and storage. Such uses may take 10 years of research, a quicker use will probably be in electronics.

Researchers now estimate that tiny but immensely powerful highspeed computers using superconductors may be three to five years away. Further off are 300 m.p.h. trains that float on magnetic cushions which now exist as prototypes but may take at least a de­cade to perfect. Power lines that can meet a city's electric needs with superconductor cables may be even further in the future.

Meanwhile, scientists around the world are trying to turn the new materials into useful products. Among the most notable is a micron-thin film to transmit useful amounts of electric current without losing superconductivity. The film could be used in the mi­croscopic circuitry of advanced computers as high-speed pathway (маршрут, соединение) between computer chips.

Several nations are known to be very active in superconductor research. For example, the United States is spending millions of


dollars on such research, much of it for military uses: projectile ac­celerators, lasers, ship and submarine propulsion.

Text 11D

Прочитайте текст и расскажите по-английски о Массачусетском Техно­логическом Институте.

Massachusetts Institute of Technology

MIT is an independent university located in Boston area. It was founded in 1861 by William Barton Rogers, a distinguished natural scientist, who believed professional competence to be best fostered (воспитывать) by the combining of teaching, research, and the ap­plication of knowledge to real-world problems. MIT held its first classes in 1865 after having delayed opening because of the Civil War. There were approximately 15 students enroled at that time.

Today MIT has about 9,700 students, a faculty (профессор­ско-преподавательский состав) of approximately 1,000 and sev­eral thousand research staff. The total teaching staff numbers more that 1,800. The institute is broadly organized into five academic Schools — Architecture and Planning, Engineering, Humanities and Social Science, Management and Science — and a large num­ber of interdisciplinary programs, laboratories, and centers, includ­ing the Whitaker College of Health Science, Technology and Management. A unique feature of MIT is that undergraduates join with graduate students, faculty, and staff to work on research pro­jects throughout the institute.

Most academic activities take place in a group of intercon­nected buildings designed to permit easy communication among the Schools and their 22 departments. Across the street from this set of buildings there are athletic fields, the student center, and many of the dormitories.

The main purpose of the academic program at MIT is to give students a sound command (прочное усвоение) of basic principles, the habit of continued learning and the confidence that comes from a thorough and systematic approach to learning. This results in continued professional and personal growth, especially in today's rapidly changing world.

The two essential parts of all MIT educational programs are teaching and research. Both of these activities carried on together have greater potential than either performed alone. They provide experience in theory and experiment for both students and teaching staff.


Each student pursues a degree (стремиться получить степень) in one of the departments.. Undergraduate courses at MIT lead to the degree of Bachelor of Science (S.B.). The academic programs require four years of full-time study for the Bachelor of Science. De­grees are awarded on the basis of satisfactory completion of general institute and departmental requirements (общеинститутские и ка­федральные требования) in each program.

There is enough flexibility (гибкость), however, to allow each student, in collaboration with the adviser, to develop an individual program in accordance with his or her own interests and preparation.

ДОПОЛНИТЕЛЬНЫЕ ЗАДАНИЯ

Упражнение 1. А. Прочитайте словосочетания из текста НА и постарай­тесь понять значения выделенных слов.

1. the threshold of a new technological age

2. who was awarded the Noble Prize

3. which won for them the Noble Prize

4. their quality is often uneven

В. Подберите к каждому выделенному в А слову соответствующее ему по значению.

a. give or grant (by official decision)

b. irregular, changing
с start, beginning

d. get by means of hard work or struggle as a result of competition

Упражнение 2. А. Прочитайте текст и постарайтесь понять значения тер­минов memory cells, windings, coils.

The practical applications of superconductivity are limited be­cause of the very low temperatures required. Some materials, for example lead, become almost perfect conductors at very low tem­peratures at the absolute zero (-273 °C). However, a number of uses have been proposed.

If a current is induced by a magnetic field in a ring of supercon­ducting material, it will continue to circulate when the magnetic field is removed. In theory this could be made use of in the memory cells of computers. Memory cells made of superconducting mate­rial could store information indefinitely. Because of the zero resis­tivity of the cells, the information could be retrieved quickly, as fast as 10~8 seconds.


90 per cent of the total losses in modern transformers is due to the resistance of the windings. Transformers could be made with windings cooled to the low temperature at which superconductivity occurs. The resistance would be zero and the transformer would be almost ideal. Similarly, a 100 % efficient electric motor has been proposed using the magnetic field of superconducting coils.

В. Подберите к каждому слову в колонке А соответствующее из колонки В.


А

1. induce

2. remove

3. indefinitely

4. memory cell

5. retrieve

6. winding

7. coil


В

a. find, get back

b. unlimitedly
с spiral

d. length of wire wound in a spi­
ral to conduct electric current

e. bring about

f. take off, away

g. the unit of computer which
stores data for future use


C. Найдите в тексте, приведенном в А, три пары синонимов.

D. Заполните таблицу на словообразование.

Verb Noun Adjective
  retrieval  
...   removable
define   ...
...   resistant
apply   conductive
present belief explanatory
... introduction ...

Упражнение 3. Заполните пропуски словами conduct, superconductivity, superconductor, superconductive.

1.... at high temperatures was almost discovered in 1979. 2. The Russian scientists found an oxide of metal they were experimenting


with to... electric current. Moreover, the lower the temperature, the less resistance the material had. 3. The resistance continued to fall in liquefied nitrogen. To continue the experiments, they needed liquid helium. To obtain it was quite a problem at that time. So the experiments were stopped. 4. But it was this compound of copper, lanthanum and oxygen that proved to be a... for which the Swiss physicists were honoured with a Noble Prize in 1987. 5. Later neither efforts nor money were spared (жалеть, экономить) for the study of the... materials. Moreover, there were no longer any problems with helium.

Упражнение 4. А. Назовите 15—20 ключевых слов и словосочетаний на тему:

«Superconductivity research».

В. Speak about:

Latest achievements in conductivity research.



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