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Hantaro Nagaoka

 
Scientist: Hantaro Nagaoka
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Japanese physicist (1865–1950)

Nagaoka was born in Nagasaki, Japan, and educated at Tokyo University. After graduating in 1887 he worked with a visiting British physicist, C. G. Knott, on magnetism. In 1893 he traveled to Europe, where he continued his education at the universities of Berlin, Munich, and Vienna. He also attended, in 1900, the First International Congress of Physicists in Paris, where he heard Marie Curie lecture on radioactivity, an event that aroused Nagaoka's interest in atomic physics. Nagaoka returned to Japan in 1901 and served as professor of physics at Tokyo University until 1925.

Physicists in 1900 had just begun to consider the structure of the atom. The recent discovery by J. J. Thomson of the negatively charged electron implied that a neutral atom must also contain an opposite positive charge. In 1903 Thomson had suggested that the atom was a sphere of uniform positive electrification, with electrons scattered through it like currants in a bun.

Nagaoka rejected Thomson's model on the ground that opposite charges are impenetrable. He proposed an alternative model in which a positively charged center is surrounded by a number of revolving electrons, in the manner of Saturn and its rings. Nagaoka's model was, in fact, unstable and it was left to Ernest Rutherford and Niels Bohr, a decade later, to present a more viable atomic model.

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Relief of Nagaoka in Science Museum in Tokyo

Nagaoka Hantaro (長岡 半太郎 Nagaoka Hantarō?, August 15, 1865December 11, 1950) was a Japanese physicist and a pioneer of Japanese physics in the early Meiji period.

Contents

Life

Nagaoka was born in Omura, Nagasaki Prefecture. After receiving his Bachelors degree in physics from the University of Tokyo in 1887, Nagaoka pursued graduate studies in Japan, working on magnetostriction with visiting British physicist C. G. Knott, later delivering an address on the subject before the first International Congress of Physics held by the Curies in Paris in 1900.

Between 1892 and 1896, Nagaoka studied abroad in Vienna, Berlin, and Munich, where he was particularly fascinated by Ludwig Boltzmann's course in the Kinetic Theory of Gases and Maxwell's work on the stability of Saturn's rings, two influences that would lead to the development of the Saturnian model of the atom in 1904.

From 1901 to 1925, Nagaoka was a professor of physics at the University of Tokyo, where his pupils include Kotaro Honda and 1949 Nobel Prize winner Hideki Yukawa.

Saturnian model

In 1904, Nagaoka developed an early, incorrect "planetary model" of the atom.[1] The model was based around an analogy to the explanation of the stability of the Saturn rings (the rings are stable because the planet they orbit is very, very massive). The model made two predictions:

  • a very massive nucleus (in analogy to a very massive planet)
  • electrons revolving around the nucleus, bound by electrostatic forces (in analogy to the rings revolving around Saturn, bound by gravitational forces).

Both predictions were successfully confirmed by Rutherford and others. However, other details of the model were incorrect and Nagaoka himself abandoned it in 1908.

Other works

He later did research in spectroscopy and other fields. In March 1924, he described studies in which he claimed to have successfully formed a milligram of gold and some platinum from mercury. He was president of Osaka University from May 1931 to June 1934.[2]

Awards and recognition

References

  1. ^ B. Bryson (2003). A Short History of Nearly Everything. Broadway Books. ISBN 0767908171. 
  2. ^ "History of the University". Osaka University. http://www.osaka-u.ac.jp/eng/about/history.html. Retrieved 2007-10-17. 
v  d  e
Atomic Models
Single atoms
Dalton model (Billiard Ball Model) · Thomson model (Plum Pudding Model) · Lewis model (Cubical Atom Model) · Nagaoka model (Saturnian Model) · Rutherford model (Planetary Model) · Bohr model (Rutherford–Bohr Model) · Bohr–Sommerfeld model (Refined Bohr Model) · Schrodinger model (Electron Cloud Model)
Atoms in solids
Atoms in liquids
Atoms in gases
Scientists

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