James Hopwood Jeans

Sir James Hopwood Jeans
Born (1877-09-11)11 September 1877
Southport,(Ormskirk Registration District) Lancashire, England
Died 16 September 1946(1946-09-16) (aged 69)
Dorking, Surrey, England
Nationality British
Fields astronomy, mathematics, physics
Institutions Trinity College, Cambridge; Princeton University
Alma mater Merchant Taylors' School; Cambridge University
Notable students Ronald Fisher
Known for Rayleigh–Jeans law
Jeans mass
Jeans length
Notable awards Smith's Prize (1901)
Adams Prize (1917)
Royal Medal (1919)

Sir James Hopwood Jeans OM FRS[1] MA DSc ScD LLD[2] (11 September 1877  16 September 1946[3]) was an English physicist, astronomer and mathematician.

Early life

Born in Ormskirk, Lancashire, the son of William Tulloch Jeans, a parliamentary correspondent and author.[4] Jeans was educated at Merchant Taylors' School, Northwood, Wilson's Grammar School,[5] Camberwell and Trinity College, Cambridge.[6] As a gifted student, Jeans was counselled to take an aggressive approach to the Cambridge Mathematical Tripos competition:[7]

Early in the Michaelmas term of 1896, Walker sent for Jeans and Hardy and advised them to take Part I of the Mathematical Tripos in two years. He told them that he could not guarantee that they would come out higher than fifteenth in the list of wranglers, but he understood that they would never regret it. They accepted his advice, and went to R. R. Webb, the most famous private coach of the period...At the end of his first year, [Jeans] told Walker that he had quarrelled with Webb, his coach. Walker accordingly took Jeans himself, and the result was a triumph:...Jeans was bracketed second wrangler with J. F. Cameron...R.W.H.T. Hudson was Senior Wrangler and G.H. Hardy fourth wrangler.

Career

Jeans was elected Fellow of Trinity College in October 1901,[8] and taught at Cambridge, but went to Princeton University in 1904 as a professor of applied mathematics. He returned to Cambridge in 1910.

He made important contributions in many areas of physics, including quantum theory, the theory of radiation and stellar evolution. His analysis of rotating bodies led him to conclude that Laplace's theory that the solar system formed from a single cloud of gas was incorrect, proposing instead that the planets condensed from material drawn out of the sun by a hypothetical catastrophic near-collision with a passing star. This theory is not accepted today.

Jeans, along with Arthur Eddington, is a founder of British cosmology. In 1928 Jeans was the first to conjecture a steady state cosmology based on a hypothesized continuous creation of matter in the universe.[9] In his 1928 book Astronomy and Cosmology he said: "The type of conjecture which presents itself, somewhat insistently, is that the centers of the nebulae are of the nature 'singular points' at which matter is poured into our universe from some other, and entirely extraneous spatial dimension, so that, to a denizen of our universe, they appear as points at which matter is being continually created."[10] This theory was ruled out when the 1965 discovery of the cosmic microwave background was widely interpreted as the tell-tale signature of the Big Bang.

His scientific reputation is grounded in the monographs The Dynamical Theory of Gases (1904), Theoretical Mechanics (1906), and Mathematical Theory of Electricity and Magnetism (1908). After retiring in 1929, he wrote a number of books for the lay public, including The Stars in Their Courses (1931), The Universe Around Us, Through Space and Time (1934), The New Background of Science (1933), and The Mysterious Universe. These books made Jeans fairly well known as an expositor of the revolutionary scientific discoveries of his day, especially in relativity and physical cosmology.

In 1939, the Journal of the British Astronomical Association reported that Jeans was going to stand as a candidate for parliament for the Cambridge University constituency. The election, expected to take place in 1939 or 1940 did not take place until 1945, and without his involvement.

He also wrote the book "Physics and Philosophy" (1943) where he explores the different views on reality from two different perspectives: science and philosophy. On his religious views, Jeans was an agnostic Mason.[11][12]

Personal life

Jeans married twice, first to the American poet Charlotte Tiffany Mitchell in 1907,[13] then the Austrian organist and harpsichordist Suzanne Hock (better known as Susi Jeans) in 1935. He died in Dorking, Surrey.

At Merchant Taylors' School there is a James Jeans Academic Scholarship for the candidate in the entrance exams who displays outstanding results across the spectrum of subjects, notably in mathematics and the sciences.

Major accomplishments

One of Jeans' major discoveries, named Jeans length, is a critical radius of an interstellar cloud in space. It depends on the temperature, and density of the cloud, and the mass of the particles composing the cloud. A cloud that is smaller than its Jeans length will not have sufficient gravity to overcome the repulsive gas pressure forces and condense to form a star, whereas a cloud that is larger than its Jeans length will collapse.

\lambda_J=\sqrt{\frac{15k_{B}T}{4\pi Gm\rho}}

Jeans came up with another version of this equation, called Jeans mass or Jeans instability, that solves for the critical mass a cloud must attain before being able to collapse.

Jeans also helped to discover the Rayleigh–Jeans law, which relates the energy density of black-body radiation to the temperature of the emission source.

 f(\lambda) = 8\pi c \frac{k_{B}T}{\lambda^4}

Idealism

For an overview see Idealism.

The stream of knowledge is heading towards a non-mechanical reality; the Universe begins to look more like a great thought than like a great machine. Mind no longer appears to be an accidental intruder into the realm of matter... we ought rather hail it as the creator and governor of the realm of matter. The Mysterious Universe, page 137.

In an interview published in The Observer (London), when asked the question "Do you believe that life on this planet is the result of some sort of accident, or do you believe that it is a part of some great scheme?", he replied:

I incline to the idealistic theory that consciousness is fundamental, and that the material universe is derivative from consciousness, not consciousness from the material universe... In general the universe seems to me to be nearer to a great thought than to a great machine. It may well be, it seems to me, that each individual consciousness ought to be compared to a brain-cell in a universal mind.
What remains is in any case very different from the full-blooded matter and the forbidding materialism of the Victorian scientist. His objective and material universe is proved to consist of little more than constructs of our own minds. To this extent, then, modern physics has moved in the direction of philosophic idealism. Mind and matter, if not proved to be of similar nature, are at least found to be ingredients of one single system. There is no longer room for the kind of dualism which has haunted philosophy since the days of Descartes. —Addressing the British Association in 1934.
Finite picture whose dimensions are a certain amount of space and a certain amount of time; the protons and electrons are the streaks of paint which define the picture against its space-time background. Traveling as far back in time as we can, brings us not to the creation of the picture, but to its edge; the creation of the picture lies as much outside the picture as the artist is outside his canvas. On this view, discussing the creation of the universe in terms of time and space is like trying to discover the artist and the action of painting, by going to the edge of the canvas. This brings us very near to those philosophical systems which regard the universe as a thought in the mind of its Creator, thereby reducing all discussion of material creation to futility. The Universe Around Us, page 317.

Awards and honours

Bibliography

Available online from the Internet Archive

Other:

References

  1. Milne, E. A. (1947). "James Hopwood Jeans. 1877-1946". Obituary Notices of Fellows of the Royal Society 5 (15): 573–570. doi:10.1098/rsbm.1947.0019.
  2. Sir James Jeans 1938 (reprint of 1931's edition of 1930 book): The Mysterious Universe.
  3. GRO Register of Deaths: SEP 1946 5g 607 SURREY SE – James H. Jeans, aged 69
  4. E. A. Milne (12 September 2013). Sir James Jeans: A Biography. Cambridge University Press. p. 1. ISBN 978-1-107-62333-0. Retrieved 3 October 2015.
  5. Allport, D.H. & Friskney, N.J. "A Short History of Wilson's School", Wilson's School Charitable Trust, 1987, pg 234
  6. "Jeans, James Hopwood (JNS896JH)". A Cambridge Alumni Database. University of Cambridge.
  7. A. E. Milne (1952) Sir James Jeans: A Biography, pp 4,5, Cambridge University Press, link from Google Books
  8. "University intelligence - Cambridge" The Times (London). Friday, 11 October 1901. (36583), p. 4.
  9. Astronomy and Cosmogony, Cambridge U Press, p 360
  10. Reynosa, Peter. "Why Isn't Edward P. Tryon A World-famous Physicist?". Huffington Post. Retrieved March 22, 2016.
  11. Pierre Teilhard De Chardin (2004). The Future of Man. Random House LLC. p. 212. ISBN 9780385510721. Retrieved 13 November 2014. We can hardly wonder, in the circumstances, that agnostics such as Sir James Jeans and Marcel Boll, and even convinced believers like Guardini, have uttered expressions ol amazement (tinged with heroic pessimism or triumphant detachment) at the apparent insignificance of the phenomenon of Life in terms of the cosmos— a little mold on a grain of dust...
  12. E.T. Bell (1986). Men of Mathematics. Simon and Schuster. p. xvii. ISBN 0-671-62818-6. The Great Architect of The Universe Now begins to apper as a pure mathemetician.
  13. J J O'Connor and E F Robertson (October 2003). "Sir James Hopwood Jeans". School of Mathematics and Statistics, University of St Andrews, Scotland. Retrieved 28 November 2011.

External links

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