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Definition: Red Shift |
Red ShiftNoun1. (astronomy) a shift in the spectra of distant galaxies toward longer wavelengths; generally interpreted as the Doppler effect resulting from the velocity at which they recede as the universe expands. Source: WordNet 1.7.1 Copyright © 2001 by Princeton University. All rights reserved. |
| Domain | Definition |
Aerospace | In astronomy, the displacement of observed spectral lines toward the longer wavelengths of the red end of the spectrum. Compare space reddening.The term red shift is applied both to the Doppler effect caused by the relative speed of recession of the observed body and the gravitational or relativistic shift in which the frequency of light emitted by atoms in stellar atmosphere is decreased by a factor proportional to the mass-radius relationship of the star. (references) |
Source: compiled by the editor from various references; see credits. | |
(From Wikipedia, the free Encyclopedia)
Redshift is an astronomical phenomenon; see redshift.Red Shift (capitalized) is a complex novel (1973) for teenagers and adults set in three intertwined time periods (Roman Britain, the siege of Barthomley Church, and a caravan site near the M6), spanning over a thousand years but one geographical area: south Cheshire, England. Alan Garner evokes the essence of place, allowing his characters to echo each other through time, as if their destinies may be predefined by the soil on which they walk. These are themes explored more tangibly in his easier, earlier work 'The Owl Service', but brought here to maturity in a weave of rapid, impressionistic dialogue.
Source: adapted by the editor from Wikipedia, the free encyclopedia under a copyleft GNU Free Documentation License (GFDL) from the article "Red Shift."
(From Wikipedia, the free Encyclopedia)
Redshift is the phenomenon that the frequency of light when observed, under certain circumstances, can be lower than the frequency of light when it was emitted at the source. This usually occurs when the source moves away from the observer, as in the Doppler effect. More specifically, the term redshift is used for the observation that the spectrum of light emitted by distant galaxies is shifted to lower frequencies (towards the red end of the spectrum, hence the name) when compared to the spectrum of closer stars. This is taken as evidence that galaxies are moving away from each other, that the universe is expanding and that it started in a Big Bang.
In general, redshift (and blueshift, the observation of higher frequency light than emitted) is quantified by
It can be due to three reasons:
- z = (emitted frequency - observed frequency) / observed frequency = (observed wavelength - emitted wavelength) / emitted wavelength.
1. Movement of the source. If the source of the light is moving away from the observer, then redshift (z > 0) occurs; if the source moves towards the observer, then blueshift (z < 0) occurs. This is true for all waves and is explained by the Doppler effect. If the source moves away from the observer with velocity v and this velocity is much smaller than the speed of light c, then the redshift is approximately given by
2. Expansion of space. The current models of cosmology assume an expanding space. Light will experience a redshift if it travels through expanding space. In a sense, expanding space and moving source are different perspectives on one and the same phenomenon: instead of a moving source, one may alternatively and equivalently assume a source at rest and the space between the source and the observer expanding.
- z ≈ v/c
3. Gravitational effects. The theory of general relativity holds that light moving through strong gravitational fields experiences a red- or blueshift. This is known as the Einstein shift. The effect is very small but measurable on Earth using the Mossbauer effect. However it is significant near a black hole and as an object approaches the event horizon, the red shift becomes infinite. Gravitational redshift was offered as an explanation of the redshift of quasars in the 1960s, although this is not widely accepted now.
The redshift observed in astronomy can be measured because the emission and absorption spectra for atoms are distinctive and well known. When analyzing light from distant galaxies, one observes absorption and emission features which appear shifted to lower frequencies. Furthermore, farther away objects generally exhibit larger redshifts. Since the redshift of light can be measured easily and precisely, astronomers often use it to indicate both distance and age of observed events (since both are much harder to determine precisely). The largest observed redshifts, corresponding to the biggest distances and largest ages, are those of the cosmic microwave background radiation; their numerical values are about z = 1100.
For galaxies more distant than the Local Group, but within a thousand megaparsecs or so, the redshift is proportional to the galaxy's distance, a fact discovered by Edwin Hubble and known as Hubble's law. Since the redshift is thought to be a result of the movement of the source (or expansion of space), this means that the farther away a galaxy is from us, the faster it moves away from us.
For more distant galaxies, the relationship between current distance and observed redshift becomes more complex. When one sees a distant galaxy, one is seeing the galaxy as it was sometime in the past, when its receding velocity was different from what it is now, and the influences on the velocity of the galaxy from gravitational deceleration and perhaps the cosmological constant become significant. However if one assumes that the expansion of the universe is uniform then there is still a linear relationship between current distance and current receding speed, also known as Hubble's law. This assumption appears reasonable since it follows from the Copernican principle that there are no special places in the universe.
This picture of the expanding universe, if extrapolated back in time, yields a "singularity", a point in time when all distances in the universe were zero. This describes the Big Bang theory. It is believed that a yet unknown theory of quantum gravity would take over before the distances become zero. One recent and perplexing observation is that the expansion of the universe appears to be accelerating, see accelerating universe.
Red Shift is also a novel by Alan Garner.
Source: adapted by the editor from Wikipedia, the free encyclopedia under a copyleft GNU Free Documentation License (GFDL) from the article "Redshift."
Crosswords: Red Shift |
| English words defined with "red shift": Hubble law, Hubble's law, Huggins ♦ Sir William Huggins. (references) |
| Specialty definitions using "red shift": cosmological distance ♦ gravitational red shift ♦ relativistic red shift ♦ space reddening. (references) |
| Domain | Usage | |
Movie/TV Titles | Red Shift (1991) | |
Source: compiled by the editor from various references; see credits. | ||
| The following statistics estimate the number of searches per day across the major English-language search engines as identified by various trade publications. Hyperlinks lead to commercial use of the expression at Amazon.com. |
| Expression | Frequency per Day |
red shift | 101 |
quantum red shift | 29 |
cheat quantum red shift | 8 |
red shift 4 | 7 |
cam red shift | 6 |
red shift 3 | 5 |
mit red shift | 3 |
internet red shift | 3 |
galactus herald red shift | 2 |
racing red shift | 2 |
band red shift | 2 |
red shift software | 2 |
| Source: compiled by the editor from various references; see credits. | |
| Language | Translations for "red shift"; alternative meanings/domain in parentheses. | |
Italian | spostamento verso il rosso. (various references) | |
Pig Latin | edray iftshay.(various references) | |
| Source: compiled by the editor from various translation references. | ||
Scrabble® Enable2K-Verified Anagrams | |
Direct Anagrams: redshift. | |
| Words within the letters "d-e-f-h-i-r-s-t" | |
-1 letter: dithers, redfish, shifted, shifter. | |
-2 letters: direst, dither, driest, drifts, fetish, firths, fished, fisher, fisted, friths, hiders, histed, refits, resift, rifest, rifted, sherif, shrift, sifted, sifter, stride, strife, theirs, thirds. | |
-3 letters: defis, deist, diets, dirts, dites, drest, dries, drift, edits, feist, fetid, fired, fires, first, firth, fresh, frets, fried, fries, frise, frith, frits, hefts. | |
| Words containing the letters "d-e-f-h-i-r-s-t" | |
+1 letter: headfirst, redshifts. | |
+2 letters: driveshaft, farsighted, hardfisted, redshifted, threadfins. | |
+3 letters: driveshafts, foresighted, pathfinders, spendthrift. | |
+4 letters: chesterfield, farsightedly, foolhardiest, spendthrifts. | |
+5 letters: chesterfields, foresightedly, handicrafters. | |
| Source: compiled by the editor from various references; see credits. SCRABBLE® is a registered trademark. All intellectual property rights in and to the game are owned in the U.S.A and Canada by Hasbro Inc., and throughout the rest of the world by J.W. Spear & Sons Limited of Maidenhead, Berkshire, England, a subsidiary of Mattel Inc. Mattel and Spear are not affiliated with Hasbro. | |
| 1. Definition 2. Synonyms 3. Crosswords 4. Usage: Modern | 5. Expressions: Internet 6. Translations: Modern 7. Anagrams 8. Bibliography |
Copyright © Philip M. Parker, INSEAD. Terms of Use.