Vesto Slipher
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| Vesto Melvin Slipher | |
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| Born | November 11, 1875 Mulberry, Indiana |
|---|---|
| Died | November 8, 1969 (aged 93) Flagstaff, Arizona |
| Nationality | American |
| Occupation | Astronomer |
| Employers | Lowell Observatory |
| Known for | Expanding universe |
| Relatives | Earl C. Slipher (brother) |
Vesto Melvin Slipher (November 11, 1875 – November 8, 1969) was an American astronomer.[1] His brother Earl C. Slipher was also an astronomer and a director at the Lowell Observatory.[1] His children are son David C. Slipher and daughter K. J. Nicholson[1]
Slipher was born in Mulberry, Indiana, and completed his doctorate at Indiana University in 1909.[1] He spent his entire career at Lowell Observatory in Flagstaff, Arizona, where he was promoted to assistant director in 1915, acting director from 1916, and finally director from 1926 until his retirement in 1952.[1] He used spectroscopy to investigate the rotation periods of planets, the composition of planetary atmospheres. In 1912, he was the first to observe the shift of spectral lines of galaxies, so he was the discoverer of galactic redshifts.[2] He was responsible for hiring Clyde Tombaugh and supervised the work that led to the discovery of Pluto in 1930.[1]
Edwin Hubble was generally incorrectly credited with discovering[3] the redshift of galaxies; these measurements and their significance were understood before 1917 by James Edward Keeler (Lick & Allegheny), Vesto Melvin Slipher (Lowell), and William Wallace Campbell (Lick) at other observatories.
Combining his own measurements of galaxy distances with Vesto Slipher's measurements of the redshifts associated with the galaxies, Hubble and Milton Humason discovered a rough proportionality of the objects' distances with their redshifts. Though there was considerable scatter (now known to be due to peculiar velocities), Hubble and Humason were able to plot a trend line from the 46 galaxies they studied and obtained a value for the Hubble-Humason constant of 500 km/s/Mpc, which is much higher than the currently accepted value due to errors in their distance calibrations. Such errors in determining distance continue to plague modern astronomers (See cosmic distance ladder for more details).
In 1929 Hubble and Humason formulated the empirical Redshift Distance Law of galaxies, nowadays termed simply Hubble's law, which, once the redshift is interpreted as a measure of recession speed, is consistent with the solutions of Einstein’s General Relativity Equations for a homogeneous, isotropic expanding space de Sitter universe or de Sitter space. Although concepts underlying an expanding universe were well understood earlier, this statement by Hubble and Humason lead to wider scale acceptance for this view. The law states that the greater the distance between any two galaxies, the greater their relative speed of separation.
This discovery later resulted in formulation of the Big Bang theory by George Gamow, a consequence of the observed velocities of distant galaxies that when taken together with the cosmological principle imply that space is expanding according to the Friedmann-Lemaître model of general relativity.
Earlier, in 1917, Albert Einstein had found that his newly developed General Theory of Relativity indicated that the universe must be either expanding or contracting. Unable to believe what his own equations were telling him, Einstein introduced a cosmological constant (a "fudge factor") to the equations to avoid this "problem". When Einstein heard of Hubble's discovery, he said that changing his equations was "the biggest blunder of my life".[4]
He died in Flagstaff, Arizona[1] and is buried there in Citizens Cemetery.
[edit] Awards
- Lalande Prize (1919)[1]
- Gold Medal of the Paris Academy of Sciences (1919)[1]
- Henry Draper Medal of the National Academy of Sciences (1932)[1]
- Gold Medal of the Royal Astronomical Society (1932)[1]
- Bruce Medal (1935)
- Slipher crater on the Moon is named for Earl and Vesto Slipher, as is a crater on Mars and the asteroid 1766 Slipher, discovered September 7, 1962, by the Indiana Asteroid Program.
[edit] Notes
- ^ a b c d e f g h i j k “Nesto Slipher, 93, Astronomer, Dies”, The New York Times (Flagstaff, AZ): 47, November 9, 1969 November 10, 1969, ISSN 1452424
- ^ Slipher first reports on the making the first Doppler measurement on September 17, 1912 in The radial velocity of the Andromeda Nebula in the inaugural volume of the Lowell Observatory Bulletin, pp.2.56-2.57. In his report Slipher writes: "The magnitude of this velocity, which is the greatest hitherto observed, raises the question whether the velocity-like displacement might not be due to some other cause, but I believe we have at present no other interpretation for it." Three years later, Slipher wrote a review in the journal Popular Astronomy, Vol. 23, p. 21-24 Spectrographic Observations of Nebulae, in which he states, "The early discovery that the great Andromeda spiral had the quite exceptional velocity of - 300 km(/s) showed the means then available, capable of investigating not only the spectra of the spirals but their velocities as well." Slipher reported the velocities for 15 spiral nebula spread across the entire celestial sphere, all but three having observable "positive" (that is recessional) velocities.
- ^ This had actually been observed by Vesto Slipher in the 1910s, but the world was largely unaware. Ref: Slipher (1917): Proc. Amer. Phil. Soc., 56, 403.
- ^ PBS Cosmological Constant
