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Great Scientists

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I. Learn to speak about great scientists. Make use of the following articles.

Mikhail Lomonosov

 

Mikhail Lomonosov was born in 1711 in the family of a fisherman in the northern coastal village of Denisovka not far from Archangelsk. When he was ten years of age his father began to take him for sea fishing. The dangerous life of a fisherman taught him to observe the natural phenomena more closely. During the long winter nights young Lomonosov studied his letters, grammar and arithmetic diligently.

Being the son of a peasant, he was refused admission to the local school. After some years, through concealing his peasant origin, he gained admission to the Slavonic-Greek-Latin Academy and for five years lived a hand-to-mouth existence on three kopecks a day. The noblemen's sons studying with him made fun of the twenty-year-old giant who, in spite of the years and his own poverty, made rapid progress.

After five years came the chance of entering the Academy of Sciences, as there were not enough noble-born students to fill the quota. His ability and diligence attracted the attention of the professors and as one of three best students he was sent abroad. He spent all the time there studying the works of leading European scientists in chemistry, metallurgy, mining and mathematics. On his return to Russia in 1745 he was made a professor and was the first Russian scientist to become a member of the Academy of Sciences.

For versatility Lomonosov has no equal in Russian science. Many of his ideas and discoveries only won recognition in the nineteenth century. He was the first to discover the vegetable origin of coal, for instance, and as a poet and scientist he played a great role in the formation of the Russian literary language, eliminating distortions and unnecessary foreign words. He died in 1765. His living memorial is Moscow University, which he founded in 1755.

 

Roentgen

 

In 1895 a German professor Wilhelm Konrad Roentgen discovered a new kind of invisible rays. These rays could pass through clothes, skin and flesh and cast the shadow of the bones themselves on a photographic plate. You can imagine the impression this announcement produced at that time.

Let us see how Roentgen came to discover these all-penetrating rays. One day Roentgen was working in his laboratory with a Crookes tube. Crookes had discovered that if he put two electric wires in a glass tube, pumped air out of it and connected the wires to opposite electric poles, a stream of electric particles would emerge out of the cathode (that is, the negative electric pole).

Roentgen was interested in the fact that these cathode rays made certain chemicals glow in the dark. On this particular day Roentgen was working in his darkened laboratory. He put his Crookes tube in a box made of thin black cardboard and switched on the current to the tube. The black box was lightproof, but Roentgen noticed a strange glow at the far corner of his laboratory bench. He drew back the curtains of his laboratory window and found that the glow had come from a small screen which was lying at the far end of the bench.

Roentgen knew that the cathode rays could make the screen glow. But he also knew that cathode rays could not penetrate the box. If the effect was not due to the cathode rays, what mysterious new rays were causing it? He did not know, so he called them X-rays.

Roentgen placed all sorts of opaque materials between the source of his X-rays and the screen. He found that these rays passed through wood, thin sheets of aluminium, the flesh of his own hand; but they were completely stopped by thin lead plates and partially stopped by the bones of his hand. Testing their effect on photographic plates he found that they were darkened on exposure to X-rays.

Roentgen was sure that this discovery would contribute much for the benefit of science. Indeed, medicine was quick to realise the importance of Roentgen's discovery. The X-rays are increasingly used in industry as well.

 


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