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Publié par | V & S Publishers |
Date de parution | 15 novembre 2012 |
Nombre de lectures | 0 |
EAN13 | 9789350573235 |
Langue | English |
Poids de l'ouvrage | 1 Mo |
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Contents
1. Michael Faraday
2. GalileoGalilei
3. EvangelistaTorricelli
4. Otto von Guericke
5. EnricoFermi
6. Max Planck
7. Leonardo da Vinci
8. Sir Humphry Davy
9. Wilhelm Konrad Roentgen
10. Sir Isaac Newton
11. Edward Jenner
12. Satyendra Nath Bose
13. Sir Alexander Fleming
14. Archimedes
15. J. Robert Oppenheimer
16. Thomas Alva Edison
17. Benjamin Franklin
18. SalimAli
19. Jagdish Chandra Bose
20. Charles Darwin
21. Madame Curie
22. SirC. V.Raman
23. Wilbur and Orville Wright
24. Blaise Pascal
25. Albert Einstein
26. Kekule von Stradonitz Friedrich August
27. James Clerk Maxwell
28. Guglielmo Marconi
29. Sir James Chadwick
30. John Logie Baird
31. Pythagoras
32 Alfred Bernhard Nobel
33. Hargobind Khorana
34. Dr. Homi Jehangir Bhabha
35. Euclid
36. Srinivasa Ramanujam
37. Alexander Graham Bell
38. Lord Rutherford
39. Gregor Johann Mendel
40. John Napier
41. Prafulla Chandra Ray
Michael Faraday
(The Inventor of Electromagnetic Induction)
Today, thousands of power stations all over the world are producing electricity with the help of generators. Without the invention of the generator electric power could not have been a reality.
Born: Sept. 22, 1791, Newington, London Died: August 25,1867, Hampton Court
And moreover it is difficult to visualise our life today without electricity. The credit of inventing this machine goes to Michael Faraday. When he made the first generator he was not aware that his invention would turn out to be one of the most important boons of the scientific age.
Michael Faraday, the father of Electromagnetic Induction, was born in 1791 at Newington, England. He was the son of a blacksmith and worked as an apprentice in bookbinding during his early years. He developed interest in science after he attended some lectures given by Sir Humphry Davy in 1812. He sent his study notes to Davy with a request for a job. In 1813, he began to work as Davy’s assistant at the Royal Institution. One year later, he accompanied Davy on a European tour. This turned out to be a highly rewarding experience for the modestly educated young scientist.
After his return to the Royal Institution, Faraday had to work hard, since he was the main source of income for the Institution which was then facing financial problems. During this period, Faraday worked in the field of glass and steel. He performed many chemical analyses and investigated the chlorides of carbon for Davy. His work resulted in the discovery of benzene in 1825.
Davy left the Royal Institution, but Faraday was immensely influenced by Davy and carried out many experiments for him. When Faraday discovered in 1-823 that gases could be liquified by pressure. Davy got the credit. After this, serious differences crept in between the two, so much so that Davy opposed the election of Faraday as a Fellow of the Royal Institution.
In 1820, Hans Oersted discovered that when electric current passes through a conductor it could produce magnetic field. Faraday heard about this and thought that it would also work the other way round, that is, magnetic field can generate electricity. He carried out experiments, he invented the process of electromagnetic induction and formulated the laws of electromagnetic induction. He demonstrated that if a magnet is moved inside a wire loop, electricity is generated. He also demonstrated that if a current carrying wire is suspended near a magnet it revolves around the magnet. These experiments made him famous throughout Europe. In 1831, he made the first dynamo. Joseph Henry also made a generator at the same time.All modern dynamos, generators and transformers are based on the work of Faraday and Henry.
One famous incident of Faraday’s life is worth mentioning. When he invented electromagnetic induction, he presented an experiment to demonstrate it before many people who came from all over the world. Among the spectators was a lady with her young baby. Faraday took a coil of copper wire and connected its ends to a galvanometer. He inserted a bar magnet into the coil. With the insertion of the magnet the needle of galvanometer moved, indicating generation of electricity. When he removed the magnet, the needle moved back. Faraday explained to the audience that this was the basis of generating electricity.
When the demonstration was over, the lady became angry. "Is it an experiment? Have you called the people to befool them?" she asked Faraday. Faraday replied politely, "Madam, just as your child is quite young, so is the case with my experiment. So far it is like a baby. In future, it may be of utmost importance."
Faraday’s statements have come true today. There is no electric generator and transformer which does not work on the principle of electromagnetic induction. If Faraday would have not invented electromagnetic induction, perhaps we would have not got electricity.
In the next few years, Faraday demonstrated by passing currents through solutions that all kinds of electricity, however generated,.was the same. In this way, he developed the laws of electrolysis in 1834 which are taught to the students of physics even today.
In 1839, Faraday suffered a mental breakdown. His convalescence took four years. His breakdown left him with a poor memory which grew worse with time. However, he returned to his work and started investigating the effect of a magnetic field on non-metallic substances. He discovered paramagnetism and diamagnetism. Although Faraday was very fond of giving lectures on science subjects, in the late 1850s he had given it up because of his failing memory.
In 1861, Faraday, then 70, retired from the Royal Institution and moved to a house in Hampton Court that Queen Victoria has offered him. By now his condition was so bad that he required permanent assistance. On 25 August 1867, he breathed his last. He was given a private funeral at Highgate Cemetery.
Faraday was a scientist noted for blending theory and experiment in his researches. He had little money to spend on apparatus and knew no mathematics. Many of his inventions were not put to use until decades afterhis death. Two electrical units are named after Faraday. One is the Faraday Unit used in measuring quantities of electricity, and the other is the Faraday Unit used in measuring the capacity