Учебное пособие Казань-2016 Сайфуллина М. Н., Хабирова Н. М. English for Physicists
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Posobie dlya fizikov Habirova Sajfullina ispravv
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Checking your understanding I. Give answers to the following questions: 1. Who is Michael Faraday? 2. What is this scientist famous for? 3. How many Faraday`s laws are you familiar with? 4. Can you explain what exactly they state? 5. Where can Faraday’s laws be applied? II. Complete the sentences by your own words. Then check the answers finding information in the text. 1. In 1831 Michael Faraday, an English physicist, gave one of the most basic… 2. This law shows the relationship between… 3. In his experiment, Faraday takes a magnet and a coil and connects a... 4. Faraday`s law finds its application in most of the electrical… 5. According to Faraday's law, change in magnetic field gives rise to change in electric field and the converse of this is used in… III. Are these sentences true or false? 1. Faraday law is one of the most basic and important laws of classical mechanics. 2. Faraday's idea of lines of force is used in well-known Maxwell's equations. 3. Faraday concluded that whenever there is relative motion between conductor and a magnetic field, the flux linkage with a coil changes and this change in flux induces a voltage across a coil. 81 4. According to the experiment, when the magnet is moved towards the coil, the needle of galvanometer returns back to zero position. 5. When the magnet is held stationary at that position, the needle of galvanometer deflects in one direction. B. Work with language I. Put all possible questions to the following sentences. 1. The basic working principle of electrical generator is Faraday's law of mutual induction. 2. When current flows through the coil of copper wire placed below a cooking container, it produces a changing magnetic field. 3. Electrical Transformer is a static device which is used to either step up or step down voltage or current. 4. Faraday's First Law states that any change in the magnetic field of a coil of wire will cause an emf to be induced in the coil. 5. Faraday's Second Law states that the magnitude of emf induced in the coil is equal to the rate of change of flux that linkages with the coil. II. Guess the words: 1. xufl 2. eythro 3. ciloevty 4. talovge 5. peexriemnt III. Do you know that … The names electrode, electrolyte, ion, anode and cathode were suggested by William Whewell (b. 1794 Lancaster, d. 1866 Cambridge) on demand of Michael Faraday; Faraday had no formal education and asked his friend Whewell to form two Greek words for him. For anode and cathode, Whewell took words that literally mean ‘upward street’ and ‘downward street’. Faraday then popularized these terms, like the other words mentioned above. 82 IV. Translate the text into Russian. Divide the text into logical parts. Write down key words to each passage. The first appliances built to generate electric currents were large rubbing machines. Then, in 1799 Alessandro Volta (b. 1745 Como, d. 1827 Como) invented a new device to generate electricity and called it a pile; today its basic element is called a (voltaic) cell, a primary cell* or, less correctly, a battery. (Correctly speaking, a battery is a collection of cells, as the one found in a car.) Voltaic cells are based on chemical processes; they provide much more current and are smaller and easier to handle than electrostatic machines. The invention of the battery changed the investigation of electricity so profoundly that Volta became world famous. At last, a simple and reliable source of electricity was available for use in experiments; unlike rubbing machines, cells and piles are compact, work in all weather conditions and make no noise. An apple or a potato or a lemon with a piece of copper and one of zinc inserted is one of the simplest possible voltaic cells. It provides a voltage of about 1 V and can be used to run digital clocks or to produce clicks in headphones. Volta was also the discoverer of the charge ‘law’ q = CU for capacitors (C being the capacity, and U the voltage) and the inventor of the high sensitivity capacitor electroscope. A modest man, nevertheless, the unit of electrical potential, or ‘tension’, as Volta used to call it, was deduced from his name. A ‘battery’ is a large number of voltaic cells; the term was taken from an earlier, almost purely military use. (Voltaic cells exist in all biological cells. For halobacteria, the internal voltaic cells are even essential to survival. Living in saltwater, internal voltaic cells help them to avoid death due to osmosis). A battery in a mobile phone is just an elaborated replacement for a number of apples or potatoes. (Adopted from www.famousscientists.org ) V. Render the text into English: О жүктеу/скачать 1,1 Mb. Достарыңызбен бөлісу:
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