3. There were other ways of applying high voltage.
4. The group couldn't help visiting the exhibition again.
5. The paper is worth(while) reading due to its importance.
6. The programmer worked very hard with the view to making the program intelligible.
7. Besides putting forward a new theory he succeeded in proving it experimentally.
8. Various methods of cooling transformers are used in practice.
WORD AND PHRASE STUDY
according to prep. (syn. in accord with, in accordance with) — согласно, в соответствии с
account/?. — описание, отчет; учет, принятие во внимание take into account (syn. take into consideration) — учитывать, принимать во внимание
give account of — объяснять, описать, охарактеризовать
take account of — учитывать
of no account — не имеющий значения
onaccountof — из-за, вследствие, на основании, по случаю
on no account — ни в коем случае
on this account — но этой причине, из-за, ввиду этого
to account for — объяснять, быть причиной, относить за счет
101
1. The earth's atmosphere exerts a pressure on account of its weight in the same way as liquids do.
2. Einstein's theory of light was put forward to account for the photoelectric effect.
3. The energy losses in a gaseous source arc to be taken into account.
4. This phenomenon is accounted for by the sudden rise of temperature.
5. Electromagnetic theory can give a satisfactory account ofthe transmission of light in transparent media.
6. No account was taken of relativistic electrons.
READING (13A)
• Read the passage carefully and explain the phenomenon of "phase change". Say why this phenomenon is of interest to physicists.
THE WORLD IS MADE OF SUBATOMIC PARTICLES
According to contemporary physicists, the world is made of several types of objects, collectively referred to as subatomic particles. (These particles can also be thought of as manifestations of something yet more fundamental, known as quantum fields.) There may be as many as I О89 identical copies of some of these particles in the present universe. The forms of matter familiar to us, both living and nonliving, on the earth and in the heavens, are all composed of various combinations of only three types of subatomic particles — protons, neutrons, and electrons. Dozens of other types of particles can be produced momentarily in the laboratory, however, and arc thought to have existed in large numbers in the early universe.
All subatomic particles are defined by a few qualities that they may possess, such as mass, spin, and electric charge. Two particles arc of the same type, if all of these qualities agree. Otherwise, they arc considered to be different particles. Particles of the same type are, as far as we know, truly identical in these properties of mass, spin, and charge rather than just very similar. If all photons, the particles that make up light, were not identical, lasers would not operate.
The subatomic particles readily convert into one another when they collide. The kinetic energy of motion of light particles can be converted into the energy associated with mass (rest energy) of heavy particles. In many cases, even isolated particles can convert spontaneously into others, if the latter are less massive. In all such transformations, only a few properties, such as the total electric charge, remain unchanged. The subatomic particles do not act like the changeless building blocks imagined by some Greek philosophers. In the last few years, physicists have realized that even those subatomic particles which exist have changed radically over the lifetime ofthe universe. It appears that evolution takes place on all levels of matter, not just on the more complex levels of living things. The driving force behind this evolution is the expansion ofthe universe, which by changing the environment in which particles are found, changes the particles themselves. Only twenty years ago, the idea that the properties of subatomic particles might depend on their environment would have been considered heresy. Nevertheless, there is now considerable theoretical support for this conclusion.
Under the conditions in which physicists usually observe subatomic particles, their defining properties are not perceived to vary, giving these properties an illusion of stability. However, under the immense temperatures and densities that prevailed in the early stages of the universe, the properties, such as mass, of some particles would have been very different from what they are now. This situation is related by nature to the variability of a liquid such as water. Under a fairly wide range of temperatures water remains liquid and its properties do not change much whatever the temperature within this range. But if the water is subjected to much lower temperatures, oris heated to above 100° Celsius, its properties change abruptly. The liquid becomes a solid (ice) ora gas (water vapour). This type of change, in which the properties of a substance change drastically as a result of a small variation in its environmental conditions, is called a "phase change" by physicists.
The presumed change in the properties of subatomic particles at very high temperatures is also considered to be a phase change, one that involves the properties of space, as well as ofthe particles in it. In other words, the particles do not react directly to a temperature change but to some alteration in space, (he medium, in which they find themselves.
It is easy to boil or freeze water, but very difficult to duplicate in the lab the extreme conditions present at the birth ofthe universe. Yet physicists have become convinced of the theory that atomic particles, and space itself, went through momentous phase changes during and after the Big Bang. The rapid cooling that followed that primordial explosion is thought to have generated several phase changes. After an incredibly short time (perhaps a microsecond), the subatomic stuff of the young universe became stabilized, combining into the particles that make up matter today.
• Look through the passage carefully and find English equivalents for the following Russian phrases.
известные под общим названием; действительно (истинно); идентичные, а не просто схожие; фазовые превращения; энергия покоя; рассматривалась бы как ересь; огромные температуры; невероятно короткий период; субатомный материал
• For each word in A find in В its equivalent having roughly the same meaning.
A. 1. abrupt; 2. immense; 3. rapid; 4. incredible; 5. drastic; 6. to prevail;
7. to presume; 8. to perceive
B. a) quick; b) unlimited, immeasurable; c) very powerful; d) improbable,
impossible to believe; e) sudden and surprising; 0 to understand (see or
notice); g) to be most common or general; h) to suppose to be true
without proof
• Fill in the blanks with information taken from the text.
1. The world is made up of 10s4... .
2. These subatomic particles have characteristic properties of..., and ....
3. These particles can be converted into one another while ....
4. Dozens of other types of particles can be produced only ....
5. Scientists believe that other types of particles existed ....