格奥尔格·欧姆
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| 格奧爾格‧歐姆 | |
 格奧爾格‧西蒙‧歐姆 (1789-1854) |
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出生
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三月十六日, 1789年 |
| 埃朗根, 巴伐利亞州, 德國 | |
| 逝世 | 七月六日, 1854年 |
| 慕尼黑, 德國 | |
| 研究領域 | 物理 |
| 集中研究 | 歐姆定律 歐姆位向定律 歐姆聽覺定律 |
| 國籍 |  德國 |
| 居住地 | 德國 |
| 研究機構 | 慕尼黑大學 |
| 母校 | 埃朗根大學 |
| 博士導師 | 卡爾‧克利斯坦‧凡‧蘭格斯多弗 (Karl Christian von Langsdorf) |
| 獲獎 | 科普利獎章 (1841) |
格奥尔格·西蒙·欧姆(德语:Georg Simon Ohm,1789年3月16日埃朗根 - 1854年7月6日慕尼黑),德国物理学家,提出了著名的欧姆定律并发现了电阻中电流与电压的关系。
身為一個高中老師,歐姆開始研究由義大利伯爵亚历山德罗·伏打近來發明的電氣化學電池。歐姆用他自己發明的儀器判定流過金屬線的電流和它的相交截面區域成正比,而和金屬線的長度成反比,亦稱歐姆定律。歐姆按照他實驗的結果,定義代表電路分析之始的電流、電壓及電阻之間的基本關係。
目录 |
[编辑] 生平
[编辑] 早年
歐姆在1789年3月16日出生。父親喬安‧渥夫甘‧歐姆是一位鎖匠,母親瑪莉亞‧伊麗莎白‧貝克是一位在埃朗根的裁縫師之女。即使他的父母親從未受過正規教育,但是歐姆的父親是一位受人尊敬的人,高水準的自學程度足以讓他給孩子們出色的教育。一些歐姆的兄弟姊妹們在幼年時期死亡,只有三個孩子存活下來。這三個孩子分別是西蒙、他後來成為著名數學家的弟弟馬丁‧歐姆和他的姊姊伊麗莎白‧ 芭芭拉。他的母親在他十歲的時候去世。
幼年時期的初期,格奧爾格和馬丁高程度的數學、物理、化學和哲學是被他們的父親所教。 格奧爾格‧西蒙在十一歲至十五歲時曾上埃朗根高級中學,那裡是他受到一點點培養科學領域的地方,並且與格奧爾格和馬丁從父親所傳授的和學校所教授的有非常鮮明地對比。 這個特色使在埃朗根大學的教授卡爾‧克利斯坦‧凡‧蘭格斯多弗[1]注意到歐姆和柏努利家族有相似的地方。
[编辑] 大學生活
In 1805, at age 15, Ohm entered the University of Erlangen. Rather than concentrate on his studies he spent much time dancing, ice skating and playing billiards. Ohm's father, angry that his son was wasting the educational opportunity, sent Ohm to Switzerland where, in September 1806, he took up a post as a mathematics teacher in a school in Gottstadt bei Nydau.
Karl Christian von Langsdorf left the University of Erlangen in early 1809 to take up a post in the University of Heidelberg and Ohm would have liked to have gone with him to Heidelberg to restart his mathematical studies. Langsdorf, however, advised Ohm to continue with his studies of mathematics on his own, advising Ohm to read the works of Euler, Laplace and Lacroix. Rather reluctantly Ohm took his advice but he left his teaching post in Gottstadt bei Nydau in March 1809 to become a private tutor in Neuchâtel. For two years he carried out his duties as a tutor while he followed Langsdorf's advice and continued his private study of mathematics. Then in April 1811 he returned to the University of Erlangen.
[编辑] 教學歷程
His private studies had stood him in good stead for his receiving a doctorate from Erlangen on October 25, 1811 and immediately joined the staff as a mathematics lecturer. After three semesters Ohm gave up his university post because of unpromising prospects while he couldn't make both ends meet with the lecturing post. The Bavarian government offered him a post as a teacher of mathematics and physics at a poor quality school in Bamberg and he took up the post there in January 1813. Feeling unhappy with his job, Georg devoted to writing an elementary book on Geometry as a way to prove his true ability. The school was then closed down in February 1816. The Bavarian government sent him to an overcrowded school in Bamberg to help out with the mathematics teaching.
After that, he sent the manuscript to King Wilhelm III of Prussia upon its completion. The King satisfied with Georg's work and he offered Ohm a position at a Jesuit Gymnasium of Cologne on September 11 1817. Thanks to the school's reputation for science education, Ohm found himself required to teach physics as well as mathematics. Luckily, the physics lab was well-equipped, so Ohm devoted himself to experimenting on physics. Being the son of a locksmith, Georg had some practical experience with mechanical equipment.
He became in the polytechnic school of Nuremberg in 1833, and in 1852 became professor of experimental physics in the university of Munich, where he later died.
[编辑] 歐姆定律的發現
- 更多資料:[[歐姆定律]]
In his first paper published in 1825, Ohm examines the decrease in the electromagnetic force produced by a wire as the length of the wire increased. The paper deduced mathematical relationships based purely on the experimental evidence that Ohm had tabulated.
In two important papers in 1826, Ohm gave a mathematical description of conduction in circuits modelled on Fourier's study of heat conduction. These papers continue Ohm's deduction of results from experimental evidence and, particularly in the second, he was able to propose laws which went a long way to explaining results of others working on galvanic electricity. The second paper certainly is the first step in a comprehensive theory which Ohm was able to give in his famous book published in the following year.
What is now known as Ohm's law appeared in the famous book Die galvanische Kette, mathematisch bearbeitet (The Galvanic Circuit Investigated Mathematically) (1827) in which he gave his complete theory of electricity. The book begins with the mathematical background necessary for an understanding of the rest of the work. While his work greatly influenced the theory and applications of current electricity, it was coldly received at that time. It is interesting that Ohm's presents his theory as one of contiguous action, a theory which opposed the concept of action at a distance. Ohm believed that the communication of electricity occurred between "contiguous particles" which is the term Ohm himself uses. The paper is concerned with this idea, and in particular with illustrating the differences in scientific approach between Ohm and that of Fourier and Navier[1]. A detailed study of the conceptual framework used by Ohm in formulating Ohm's law is given in [2].
[编辑] 研究與出版
His writings were numerous. The most important was his pamphlet published in Berlin in 1827, with the title Die galvanische Kette mathematisch bearbeitet. This work, the germ of which had appeared during the two preceding years in the journals of Schweigger and Poggendorff, has exerted an important influence on the development of the theory and applications of electric current. Ohm's name has been incorporated in the terminology of electrical science in Ohm's Law (which he first published in Die galvanische Kette...), the proportionality of current and voltage in a resistor, and adopted as the SI unit of resistance, the ohm (symbol Ω).
Although Ohm's work strongly influenced theory, at first it was received with little enthusiasm. However, his work was eventually recognized by the Royal Society with its award of the Copley Medal in 1841 [3]. He became a foreign member of the Royal Society in 1842, and in 1845 he became a full member of the Bavarian Academy.
[编辑] 作品
- Grundlinien zu einer zweckmäßigen Behandlung der Geometrie als höheren Bildungsmittels an vorbereitenden Lehranstalten / entworfen (Guidelines for an appropriate treatment of geometry in higher education at preparatory institutes / notes)
- Erlangen : Palm und Enke, 1817. - XXXII, 224 S., II Faltbl. : graph. Darst. (PDF, 11.2 MB)
- Die galvanische Kette : mathematisch bearbeitet (The Galvanic Circuit Investigated Mathematically)
- Berlin : Riemann, 1827. - 245 S. : graph. Darst. (PDF, 4.7 MB)
- Elemente der analytischen Geometrie im Raume am schiefwinkligen Coordinatensysteme (Elements of analytic geometry concerning the skew coordinate system)
- Nürnberg : Schrag, 1849. - XII, 590 S. - (Ohm, Georg S.: Beiträge zur Molecular-Physik ; 1) (PDF, 81 MB)
- Grundzüge der Physik als Compendium zu seinen Vorlesungen (Fundamentals of physics: Compendium of lectures)
- Nürnberg : Schrag, 1854. - X, 563 S. : Ill., graph. Darst. Erschienen: Abth. 1 (1853) - 2 (1854) (PDF, 38 MB)
[编辑] 參考文獻
- ↑ B Pourprix, G S Ohm théoricien de l'action contigue, Arch. Internat. Hist. Sci. 45(134) (1995), 30-56
- ↑ T Archibald, Tension and potential from Ohm to Kirchhoff, Centaurus 31 (2) (1988), 141-163
- ↑ Winners of the Copley Medal of the Royal Society of London
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