电与磁 —— 阅读全文约需2个小时

今天这个幸运的时代，是数千年人类智慧累积而成。在这数千年中，曾经出现过几位对当今科技有着重大影响的人物。

起初是牛顿，他站在了所有人的肩膀上，将几千年以来，人类对大自然的质朴认知融合在一起。随后是法拉第与麦克斯韦在电磁学上的成就。电磁学的出现是人类科技史的一次突变，二十世纪的科技成就建立在这次突变之上。

爱因斯坦的相对论与法拉第的场有着千丝万缕的联系。随后出现的玻尔与哥本哈根学派的量子力学理论，超越了人类数千年积累而后的想象。

在这些发现的背后，站立着许多由时势而造就的英雄。这些英雄出现在恰当的时机，依靠自身努力，趁风而起，青史留名。

许多人没有在史册上留下显赫的名字，他们的毕生心血仅是化作几条实验数据，这些数据在未来，成为了破解某个难题的关键。

更多的人什么都没有留下来，他们仅是一粒粒微不足道的尘埃。这些由亿万生灵所组成的尘埃，凝结在一起时，却能璀璨夺目。这众生的合力，推动着科技史册的缓慢前行。

从无线电出现开始，今天的我们经历了一系列科技浪潮。

如果我们将画轴拉长至千年或是更长的一段时间，从最上方俯视这段相对完整的科技史册时，会发现离我们最近的几次科技浪潮，在漫漫的岁月之中所呈现的仅是一道较为完整的波浪。这个波浪源于电与磁的出现。

人类历史上第一个发电机使用硫磺球制成的。瓶子是指莱顿瓶，莱顿瓶是世界上第一个电容器。

本节的另外一个名字可以是富兰克林传记。富兰克林对电与磁最大的贡献是费城做的一系列实验。在这些实验中，他无意发现了电荷守恒定律，并解释了莱顿瓶的工作原理。风筝与闪电实验非常有名，但从科技的角度看，意义不比前两者更大。

历史上著名的三次扭秤实验。库仑扭秤实验发现了什么是静止的电。之后科学家通过类比法，发现了什么是静止的磁。最艰难的扭秤实验还是卡文迪许测量万有引力常数的实验。

丹麦的奥斯特发现电能产生磁。毕奥与萨伐尔对电如何产生磁进行了定性的描述。随后的几年是安培的表演时间。

这一节也可以换一个名称，叫做法拉第传记。法拉第的一生充满传奇。爱因斯塔说，法拉第最大的贡献，是提出了“场”理论。

本节自然是讲麦克斯韦方程组。

赫兹发现电磁波。麦克斯韦的4个粉丝推广麦克斯韦的电磁场理论。

马可尼、波波夫与特斯拉谁才是无线电之父。我的理解应该还是马可尼，马可尼在推进无线电技术的发展与普及中，居功至伟。

“电与磁”的全部内容不会放入《半导体简史》这本书籍中，将作为“半导体的起源”这一章的第1.1节，篇幅也将大幅减少，许多在电与磁领域做出巨大贡献的科学家，在书中可能只剩下了一句话。毕竟这是一本关于半导体的书籍。

参考资料

[1]    M. Fowler. Historical Beginnings of Theories of Electricity and Magnetism [OL]. http://galileoandeinstein.physics.virginia.edu/more_stuff/E&M_Hist.html

[2]    J.F. Keithley. The story of electrical and magnetic measurements: From 500 BC to the 1940s [M].

[3]    Heilbron J L, Finn B S. Electricity in the 17th and 18th Centuries: A Study of Early Modern Physics[J]. Electronics & Power, 1980, 31(7):248.

[4]    Franklin B, Conn P, Gutmann A. The Autobiography of Benjamin Franklin: Penn Reading Project Edition[M]. 2011.

[5]    Cohen I B. Benjamin Franklin's Experiments: A New Edition of Franklin's 'experiments and Observations on Electricity’. [M].

[6]    Saslow W M. A History of Electricity and Magnetism, to Conservation of Charge[M]// Electricity, Magnetism, and Light. Elsevier Inc. 2002. http://people.physics.tamu.edu/saslow/chap_02all.pdf.

[7]    Thomas-François Dalibard. Report of an Experiment with Lightning, 13 May 1752.

[8]    Finn B S. An Appraisal of the Origins of Franklin\'s Electrical Theory[J]. Isis, 1969, 60(3):362-369.

[9]    Gillmor, Stewart C. Coulomb and the Evolution of Physics and Engineering in Eighteenth-Century France[J]. American Journal of Physics, 1972, 40(8):1188.

[10] Wolf A, Williamson C. A History of Science, Technology, and Philosophy in the 18th Century[J]. American Journal of Physics, 1939, 29(11):536-537.

[11] Ducheyne, Steffen. Newton on Action at a Distance[J]. Journal of the History of Philosophy, 2014, 52(4):675-701.

[12] McCormmach, Russell. John Michell and Henry Cavendish: Weighing the Stars[J]. The British Journal for the History of Science, 1968, 4(02):126.

[13] John Michell. On the Means of discovering the Distance, Magnitude, &c. of the Fixed Stars. In a Letter to Henry Cavendish, Esq. F.R.S. and A. S.[J] 1784. https://royalsocietypublishing.org/doi/abs/10.1098/rstl.1784.0008

[14] Cavendish, H. Experiments to Determine the Density of the Earth. By Henry Cavendish, Esq. F. R. S. and A. S.[J]. Philosophical Transactions of the Royal Society of London, 1798, 88:469-526.

[15] CV Boys. On the Newtonian Constant of Gravitation[J]. Philosophical Transactions of the Royal Society of London,1894. A Vol. 186 (1895), pp. 1-72

[16] West J B. Henry Cavendish (1731–1810): Hydrogen, Carbon Dioxide, Water, and Weighing the World[M]// Essays on the History of Respiratory Physiology. Springer New York, 2015.

[17] Maxwell JC. The Scientific Papers of the Honourable Henry Cavendish[J]. Cambridge, UK: Cambridge University Press, 1879.

[18] Ørsted, Hans Christian, Jelved K , Jackson A D , et al. Selected scientific works of Hans Christian Ørsted[J]. Isis, 1999, 90(4).

[19] Benjamin Franklin. Letter from Benjamin Franklin to Peter Collison dated June 29, 1751.

[20] J.-B. Biot，F. Savart. Note sur le magnétisme de la pile de Volta. Annales de chimie et de physique, 1820, vol. 15, p.222-223.

[21] Tricker, R. A R. Early Electrodynamics-The First Law of Circulation[J]. American Journal of Physics, 1965, 34(12):1210-1210.

[22] James R. Hofmann. André-Marie Ampère: Enlightenment and Electrodynamics [J]. The American Historical Review, 1998.

[23] Mauskopf, Seymour H. The Atomic Structural Theories of Ampère and Gaudin: Molecular Speculation and Avogadro’s Hypothesis[J]. Isis, 1969, 60(1):61-74.

[24] A. Ampère, Memoir on the Mathematical Theory of Electrodynamic Phenomena, Uniquely Deduced from Experience, 1827.

[25] Sydney Ross. The Search for Electromagnetic Induction (1820-1831). College Science, 1975. Notes Rec. R. Soc. Lond.

[26] Agassi J, Berkson W. Faraday as a Natural Philosopher[J]. 1971, 78(3).

[27] Michael Faraday. Experimental Researches in Electricity[M]. Cambridge university press, 2012.

[28] Turner F M. Geoffrey Cantor. Michael Faraday: Sandemanian and Scientist; A Study of Science and Religion in the Nineteenth Century. New York: St. Martin's. 1991. Pp. xi, 359. [J]. 1992, 98(2):494-495.

[29] Martin T. Faraday's Diary[J]. Nature, 1930(3186):812-814.

[30] 王洛印, 胡化凯, 孙洪庆. 法拉第力线思想的形成过程[J]. 自然科学史研究(02):28-43.

[31] 宋德生. 试论法拉第场论:纪念法拉第诞辰200周年[J]. 物理1991,20(10):0-0.

[32] Conrad Ranzan. The History of the Aether Theory; A Compendious Summary and Chronology of the Aether Theories [OL]. http://www.cellularuniverse.org/AA3AetherHistory-Ranzan.pdf.

[33] Newton I. Four letters from Sir Isaac Newton to Doctor Bentley, containing some arguments in proof of a deity[J]. Printed for R. and J. Dodsley. (London), 2006.

[34] Maxwell J C , Niven W D . The Scientific Papers of James Clerk Maxwell: On Faraday's Lines of Force[J]. 2011, 10.1017/CBO9780511698095(VIII):155-229.

[35] Campbell L, Garnett W. The Life of James Clerk Maxwell[M]// The life of James Clerk Maxwell. Cambridge University Press, 2010.

[36] Maxwell, J. C . On physical lines of force, part II: The theory of molecular vortices applied to electric currents[J]. Philosophical Magazine, 2010, 90(sup1):11-23.

[37] Katz V J. The History of Stokes’s Theorem[J]. Mathematics Magazine, 1979, 52(3):146-156.

[38] David J. Griffiths. Introduction to Electrodynamics, 4^th Edition [M].

[39] Raymond Flood. James Clerk Maxwell: Perspectives on his Life and Work [M]. Oxford: Oxford University Press, 2014.

[40] Hunt B J. The Maxwellians[J]. Isis, 1992, 60(10).

[41] JP Rybak. Oliver Lodge: Almost the Father of Radio [OL]. https://antiquewireless.org/wp-content/uploads/48-oliver_lodge.pdf

[42] Hertz H. Electric waves: being researches on the propagation of electric action with finite velocity through space [M].New York: Macmillan, 1893.

[43] M Salazar-Palma,TK Sarkar,D Sengupta. The father of radio: A brief chronology of the origin and developments of wireless communication and supporting electronics [J]. Second Region 8 IEEE Conference on the History of Communications, 2010.

[44] Corazza G C . Marconi's history [radiocommunication][J]. Proceedings of the IEEE, 2002, 86(7):1307-1311.

[45] Titania, Marconi and the wireless telegraph [OL]. https://www.sciencemuseum.org.uk/objects-and-stories/titanic-marconi-and-wireless-telegraph

[46] J O'Neill. Prodigal Genius: The Life of Nikola Tesla [M]. 2007.

[47] My Inventions Nikola Tesla's Autobiography[J]. http://www.tfcbooks.com/e-books/my_inventions.pdf

[48] Gee, Brian. The early development of the magneto-electric machine[J]. Annals of Science, 1993, 50(2):101-133.

[49] Halacsy A, Von Fuchs G H . Transformer Invented 75 Years Ago[J]. Electrical Engineering, 1961, 80(3):0-125.

[50] JW Klooster. Icons of invention: the makers of the modern world from Gutenberg to Gates [M].