词条 | Darian calendar | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
释义 |
The Darian calendar is a proposed system of time-keeping designed to serve the needs of any possible future human settlers on the planet Mars. It was created by aerospace engineer, political scientist, and space jurist Thomas Gangale in 1985 and named by him after his son Darius. It was first published in June 1986.[1]* In 1998 at the founding convention of the Mars Society the calendar was presented as one of two calendar options to be considered along with eighteen other factors to consider for the colonization of Mars.[2] Year length and intercalationThe basic time periods from which the calendar is constructed are the Martian solar day (sometimes called a sol) and the Martian vernal equinox year, which is {{clarify span|slightly different from the tropical year|date=April 2016}}. The sol is 39 minutes 35.244 seconds longer than the Terrestrial solar day and the Martian vernal equinox year is 668.5907 sols in length (which corresponds to 686.86 days on Earth). The basic intercalation formula therefore allocates six 669-sol years and four 668-sol years to each Martian decade. The former (still called leap years even though they are more common than non-leap years) are years that are either odd (not evenly divisible by 2) or else are evenly divisible by 10, producing 6,686 sols per ten years (668.6 sols per year). A 1998 iteration of the Darian calendar made years divisible by 100 common years, but years divisible by 500 stay leap years.[3] However, this static intercalation scheme did not take into account the slowly increasing length of the Martian vernal equinox year. In 2006 Gangale devised a series of intercalation formulas, all of which have in common the basic decennial cycle, as shown in the following table:
This extended intercalation scheme results in an error of only about one sol at the end of 12,000 Martian years, or about the year 24,180 of the Common Era.[4] Calendar layoutThe year is divided into 24 months. The first 5 months in each quarter have 28 sols. The final month has only 27 sols unless it is the final month of a leap year when it contains the leap sol as its final sol. The calendar maintains a seven-sol week, but the week is restarted from its first sol at the start of each month. If a month has 27 sols, this causes the final sol of the week to be omitted. This is partly for tidiness. It can also be rationalised as making the average length of the Martian week close to the average length of the Terrestrial week, although it must be remembered that 28 Earth days is roughly equal to {{frac|27|1|4}} Martian sols and not {{frac|27|5|6}} Martian sols. In the table, the days of the week are Sol Solis, Sol Lunae, Sol Martis, Sol Mercurii, Sol Jovis, Sol Veneris, Sol Saturni.
The last day of Vrishika is an intercalary day that only occurs on leap years, much like February 29 in the Gregorian calendar. Start of yearThe Martian year is treated as beginning near the equinox marking spring in the northern hemisphere of the planet. Mars currently has an axial inclination similar to that of the Earth, so the Martian seasons are perceptible, though the greater eccentricity of Mars' orbit about the Sun compared with that of the Earth means that their significance is strongly amplified in the southern hemisphere and masked in the northern hemisphere. EpochGangale originally chose late 1975 as the epoch of the calendar in recognition of the American Viking program as the first fully successful (American) soft landing mission to Mars (the earlier 1971 Soviet Mars 3 Landing having delivered only 15 seconds of data from the planet's surface). In 2002 he adopted the Telescopic Epoch, first suggested by Peter Kokh in 1999 and adopted by Shaun Moss in 2001 for his Utopian Calendar, which is in 1609 in recognition of Johannes Kepler's use of Tycho Brahe's observations of Mars to elucidate the laws of planetary motion, and also Galileo Galilei's first observations of Mars with a telescope. Selection of the Telescopic Epoch thus unified the structures of the Darian and Utopian calendars, their remaining differences being nomenclatural. It also avoids the problem of the many telescopic observations of Mars over the past 400 years being relegated to negative dates. NomenclatureThe Darian calendar has been widely imitated.[5] Suggested variations abound on the World Wide Web that use different nomenclature schemata for the days of the week and the months of the year. In the original Darian calendar, the names of the 24 months were provisionally chosen by Gangale as the Latin names of constellations of the zodiac and their Sanskrit equivalents in alternation. The 7 sols of the week, similarly, were provisionally named after the Sun, the largest Martian moon Phobos (Sol Phobotis) and the 5 brightest planets as seen from Mars including Earth (Sol Terrae). These were later modified to follow the familiar convention of the Romance languages, replacing Sol Phobotis with Sol Lunae and Sol Terrae with Sol Martis.[6] The Darian Defrost Calendar, however, creates new names for the Martian months out of patterns relating letter choice and name length to month order and season. The Utopian Calendar, devised by the Mars Time Group in 2001, also has additional suggestions for nomenclature modification.[7] Mars Julian solThe Mars Julian sol count is analogous to the Julian Day count on Earth, in that it is a continuous numerical counting of days from an epoch. The Mars Julian sol epoch is the same as for the Darian calendar, thus Mars Julian sol 0 is 1 Sagittarius 0. Comparison with timekeeping systems in planetary scienceSince the Darian calendar is designed as a civil calendar for human communities on Mars, it has no precise analog in the scientific community, which has no need to mark Martian time in terms of weeks or months. Two unrelated epochs that have gained some traction in the scientific community are the Mars sol date and the Mars year. In 1998 Michael Allison proposed the Mars sol date epoch of 29 December 1873 (Julian Day 2405521.502).[8] In 2000 R. T. Clancy et al. proposed the Mars year 1 set to the epoch 11 April 1955 (Julian Day 2435208.456).[9] The Clancy Mars year is reckoned from one Martian northward equinox to the next (Ls = 0°), and specific dates within a given year are expressed in Ls. The Clancy Mars year count is approximately equal to the Darian year count minus 183. The Allison Mars sol date epoch equates to Ls = 276.6° in a year that is undefined in the Clancy Mars year count. It converts to 25 Virgo 140 on the Darian calendar and Mars Julian sol 94128.511. Martiana calendarIn 2002 Gangale devised a variant of the Darian calendar that reconciles the months and the sols of the week in a repeating pattern and removes the need to omit days of the week. In the Martiana variant, all the months in a given quarter begin on the same sol of the week, but the sol that begins each month shifts from one quarter to the next, based on the scheme devised by the astronomer Robert G. Aitken in 1936.[10] The following table shows the sol of the week on which each month in the quarter begins. The first quarter corresponds to spring in the Martian northern hemisphere and autumn in the Martian southern hemisphere.
The leap sol occurs at the end of odd-numbered years as in the original Darian calendar. Since the last month of odd-numbered years contains 28 sols, the following year also begins on Sol Solis, resulting in a two-year cycle over which the relationship of the sols of the week to the months repeats. The sol that is added every tenth year is epagomenal (not counted as part of the week), thus the two-year rotation of the sols of the week is not disrupted. The Martiana scheme avoids the Darian calendar's need to shorten the week to six sols three to four times per year. The disadvantage is that the scheme results in a two-year cycle for reconciling the sols of the week and the months, whereas the Darian calendar is repeatable from month to month. Other Darian calendarsIn 1998 Gangale adapted the Darian calendar for use on the four Galilean moons of Jupiter discovered by Galileo in 1610: Io, Europa, Ganymede, and Callisto.[11] In 2003 he created a variant of the calendar for Titan.[12] Important dates in Martian history
The Darian calendar in fictionGangale was inspired to create the calendar after reading Red Planet, a 1949 science fiction book by Robert A. Henlein. In the book, Heinlein postulates a 24-month Martian calendar.[13] The Darian calendar is mentioned in several works of fiction set on Mars:
See also
Notes1. ^Gangale, Thomas. (1986-06-01). "Martian Standard Time". Journal of the British Interplanetary Society. Vol. 39, No. 6, p. 282–288. 2. ^http://www.univelt.com/linkedfiles/MarsSocietyProc.html 3. ^Gangale, Thomas. (1998-08-01). "The Darian Calendar". Mars Society. MAR 98-095. Proceedings of the Founding Convention of the Mars Society. Volume III. Ed. Robert M. Zubrin, Maggie Zubrin. San Diego, California. Univelt, Incorporated. 13-Aug-1998. 4. ^Gangale, Thomas. (2006-07-01). "The Architecture of Time, Part 2: The Darian System for Mars." Society of Automotive Engineers. SAE 2006-01-2249. 5. ^{{cite web|url=http://ops-alaska.com/time/gangale_mst/darian.htm#Variants |title=The Darian Calendar for Mars: Children and Collateral Relatives |first=Thomas |last=Gangale |website=Martian Time |accessdate=4 February 2015 }} 6. ^{{cite web|last1=Gangale|first1=Thomas|title=The Darian System|url=http://ops-alaska.com/time/gangale_mst/darian.htm|accessdate=18 June 2016}} 7. ^{{cite web|url=http://ops-alaska.com/time/authors/moss_utopian/index.asp |title=The Utopian Calendar |first=Shaun |last=Moss |website=Martian Time |accessdate=3 February 2015 |deadurl=yes |archiveurl=https://web.archive.org/web/20150525193453/http://www.ops-alaska.com/time/authors/moss_utopian/index.asp |archivedate=25 May 2015 |df= }} 8. ^Allison, Michael (198-08-13). "A Mars Proleptic Calendar and Sol-Date Timing Reference". Presented at the Founding Convention of the Mars Society. 9. ^Clancy, R. T., B. J. Sandor, M. J. Wolff, P. R. Christensen, J. C. Pearl, B. J. Conrath, and R. J. Wilson (2000-04-25). "An intercomparison of ground-based millimeter, MGS TES, and Viking atmospheric temperature measurements: Seasonal and interannual variability of temperatures and dust loading in the global Mars atmosphere". Journal of Geophysical Research. vol. 105, no. E4, page 9564. 10. ^Aitken, Robert G. (1936-12-01). "Time Measures on Mars". Astronomical Society of the Pacific Leaflets. Leaflet 95—December, 1936. 11. ^{{cite web |url=http://ops-alaska.com/time/gangale_jupiter/jupiter.htm |title=The Calendars of Jupiter |first=Thomas |last=Gangale |website=Martian Time |accessdate=3 February 2015}} 12. ^{{cite web |url=http://ops-alaska.com/time/gangale_saturn/Darian_Titan_main.htm |title=The Darian Calendar for Titan |first=Thomas |last=Gangale |website=Martian Time |accessdate=3 February 2015}} 13. ^Jan Gyllenbok, Encyclopaedia of Historical Metrology, Weights, and Measures, volume 1, p. 284, Birkhäuser, 2018 {{ISBN|9783319575988}}. References{{refbegin|33em}}
External links
Apps
4 : 1985 works|Mars|Proposed calendars|Specific calendars |
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