Hantaro Nagaoka

Hantaro Nagaoka

Born	(1865-08-15)August 15, 1865 Ōmura, Nagasaki
Died	December 11, 1950(1950-12-11) (aged 85)
Nationality	Japan
Fields	Physics
Notable students	Kotaro Honda, Hideki Yukawa

Relief of Nagaoka in Science Museum in Tokyo

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

Life

Nagaoka was born in Nagasaki, Japan, and educated at Tokyo University. After graduating in 1887 he worked with a visiting British physicist, Cargill Gilston 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. After his retirement, he was appointed a head scientist at RIKEN, and also served as the first president of Osaka University (1931–1934).

Saturnian model of the atom

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 plums in a pudding, the plum pudding model.

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.

In 1904, Nagaoka developed an early planetary model of the atom.^[1] Nagaoka's 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 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 (who mentions Nagaoka's model in his 1911 paper in which the nucleus is proposed). However, other details of the model were incorrect. In particular, charged rings would be unstable due to repulsive disruption, which is not the case with Saturn's rings, and Nagaoka himself abandoned it in 1908.

Ernest Rutherford and Niels Bohr presented the more viable Bohr model in 1913.

Other works

Nagaoka later did research in spectroscopy and other fields. In 1909, he published a paper on the inductance of solenoids.^[2] In March 1924, he described studies in which he had successfully formed a milligram of gold and some platinum from mercury.^[3] In 1929 he became the first person to describe Meteor burst communications.^[4]

Awards and recognition

For his lifetime of scientific work, Nagaoka was granted the Order of Culture by the Japanese government in 1937.
The Nagaoka crater on the Moon is named after him.

References

↑ B. Bryson (2003). A Short History of Nearly Everything. Broadway Books. ISBN 0-7679-0817-1.
↑ Nagaoka, Hantaro (1909-05-06). "The Inductance Coefficients of Solenoids" (PDF). Journal of the College of Science (Tokyo, Japan: Imperial University) 27 (6): 18
↑ Robert A. Nelson. (1998). "Transmutations of Mercury to Gold". Adept Alchemy. Rex Research. Retrieved 16 August 2014. On line by The Alchemy web site on Levity.com.
↑ Hantaro Nagaoka (1929). "Possibility of the radio transmission being disturbed by meteoric showers". Tokyo Imperial Academy, Proceedings 5 (6): 233–236. Citated in Wilhelm Nupen (1961). Bibliography on meteoric radio wave propagation. Washington: U.S. National Bureau of Standards. p. 76. Retrieved 17 August 2014.

External links

H. Nagaoka

Sources

C.C. Gillispie, ed. (2000). Concise Dictionary of Scientific Biography (2nd ed.). Charles Scribner's Sons. pp. 606–607. ISBN 0-684-80631-2.
C.C. Gillispie, ed. (1974). Dictionary of Scientific Biography. IX: A.T. Macrobious – K.F. Naumann. Charles Scribner's Sons. p. 648. ASIN B000QA98QQ.

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) Gryziński model (Free-fall model) Schrodinger model (Electron cloud model)

Atoms in solids	Drude model Free electron model Nearly free electron model Band structure Density functional theory

Atoms in liquids	Liquid helium

Atoms in gases	Noble gas Nascent hydrogen

Scientists	Felix Bloch Niels Bohr John Dalton Paul Drude Irving Langmuir Gilbert N. Lewis Hantaro Nagaoka Ernest Rutherford Erwin Schrödinger Arnold Sommerfeld J. J. Thomson

Book:Atomic models Category:Atoms Portal:Physics / Chemistry

Presidents of Osaka University (総長)

Osaka Imperial University	1st Hantaro Nagaoka (長岡半太郎) 1931-1934 2nd Chozaburo Kusumoto (楠本長三郎) 1934-1943 3rd Riko Majima (真島利行) 1943-1946 4th Hidetsugu Yagi (八木秀次) 1946

Osaka University	5th Arao Imamura (今村荒男) 1946-1954 6th Kenjiro Shoda (正田建次郎) 1954-1960 7th Akahori Shiro (赤堀四郎) 1960-1966 8th Minoru Okada (岡田實) 1966-1969 9th Juntaro Kamahora (釜洞醇太郎) 1969-1975 10th Tetsuo Wakatsuki (若槻哲雄) 1975-1979 11th Yuichi Yamamura (山村雄一) 1979-1985 12th Nomuaki Kumagai (熊谷信昭) 1985-1991 13th Junjiro Kanemori (金森順次郎) 1991-1997 14th Tadamitsu Kishimoto (岸本忠三) 1997-2003 15th Hideo Miyahara (宮原秀夫) 2003-2007 16th Kiyokazu Washida (鷲田清一) 2007-2011 17th Toshio Hirano (平野俊夫) 2011-

Authority control	WorldCat VIAF: 3251434 LCCN: n2010041482 GND: 117547018 NDL: 00050028