In astronomy, the Julian year is a unit of time, defined as 365.25 days of SI seconds each.
There is no universally accepted symbol for the year as a unit of time. The International System of Units does not propose one. A common abbreviation in international use is a (for Latin annus), in English also y or yr.
Due to the Earth's axial tilt, the course of a year sees the passing of the seasons, marked by changes in weather, hours of daylight, and consequently vegetation and fertility. In temperate and subpolar regions, generally four seasons are recognized: spring, summer, autumn and winter, astronomically marked by the Sun reaching the points of equinox and solstice, although the climatic seasons lag behind their astronomical markers. In some tropical and subtropical regions it is more common to speak of the rainy (or wet, or monsoon) season versus the dry season.
A calendar year is an approximation of the Earth's orbital period in a given calendar. A calendar year in the Gregorian calendar (as well as in the Julian calendar) has either 365 (common years) or 366 (leap years) days.
The word "year" is also used of periods loosely associated but not strictly identical with either the astronomical or the calendar year, such as the seasonal year, the fiscal year or the academic year, etc. By extension, the term year can mean the orbital period of any planet: for example, a "Martian year" is the time in which Mars completes its own orbit. The term is also applied more broadly to any long period or cycle, such as the "Great Year".
West Saxon gear (), Anglian gēr continues Proto-Germanic *jǣram (*jē2
Latin Annus (a 2nd declension masculine noun; annum is the accusative singular; anni is genitive singular and nominative plural; anno the dative and ablative singular) is from a PIE noun , which also yielded Gothic aþnam "year".
Both *yē-ro- and *at-no- are based on verbal roots expressing movement, *at- and *ey- respectively, both meaning "to go" generally.
The Greek word for "year", , is cognate with Latin vetus "old", from PIE *wetus- "year", also preserved in this meaning in Sanskrit "yearling (calf)" and "year".
Derived from Latin annus are a number of English words, such as annual, annuity, anniversary, etc.; per annum means "each year".
A half year (one half of a year) may run from January to June, or July to December.
No astronomical year has an integer number of days or lunar months, so any calendar that follows an astronomical year must have a system of intercalation such as leap years. Financial and scientific calculations often use a 365-day calendar to simplify daily rates.
In the Julian calendar, the average length of a year is 365.25 days. In a non-leap year, there are 365 days, in a leap year there are 366 days. A leap year occurs every 4 years.
The Gregorian calendar attempts to keep the vernal equinox on or soon before March 21, hence it follows the vernal equinox year. The average length of this calendar's year is mean solar days (as 97 out of 400 years are leap years); this is within one ppm of the current length of the mean tropical year ( days). It is estimated that, by the year 4000, the vernal equinox will fall back by one day in the Gregorian calendar, not because of this difference, but because of the slowing down of the Earth's rotation and the associated lengthening of the sidereal day.
The Persian calendar, in use in Afghanistan and Iran, has its year begin on the day of the vernal equinox as determined by astronomical computation (for the time zone of Tehran), as opposed to using an algorithmic system of leap years.
For example, the federal government of the U.S. has a fiscal year that starts on October 1 instead of January 1. In India the fiscal year is between April 1 and March 31. In the United Kingdom and Canada, the financial year runs from April 6 and April 1 respectively, and in Australia it runs from July 1.
The school year can be divided up in various ways, two of which are most common in North American educational systems.
==Astronomical years==
In the Unified Code for Units of Measure, the symbol a (without subscript) always refers to the Julian year aj of exactly seconds.
365.25 days of seconds = 1 a = 1 aj = Ms
The SI multiplier prefixes may be applied to it to form ka (kiloannum), Ma (megaannum) etc.
Each of these three years can be loosely called an 'astronomical year'.
The sidereal year is the time taken for the Earth to complete one revolution of its orbit, as measured against a fixed frame of reference (such as the fixed stars, Latin sidera, singular sidus). Its average duration is mean solar days (365 d 6 h 9 min 9.76 s) (at the epoch J2000.0 =
The tropical year is "the period of time for the ecliptic longitude of the Sun to increase by 360 degrees. Since the Sun's ecliptic longitude is measured with respect to the equinox, the tropical year comprises a complete cycle of the seasons; because of the economic importance of the seasons, the tropical year is the basis of most calendars. The tropical year is often defined as the time between southern solstices, or between northward equinoxes. Because of the Earth's axial precession, this year is about 20 minutes shorter than the sidereal year. The mean tropical year is approximately 365 days, 5 hours, 48 minutes, 45 seconds (= days).
The anomalistic year is the time taken for the Earth to complete one revolution with respect to its apsides. The orbit of the Earth is elliptical; the extreme points, called apsides, are the perihelion, where the Earth is closest to the Sun (January 3 in 2011), and the aphelion, where the Earth is farthest from the Sun (July 4 in 2011). The anomalistic year is usually defined as the time between perihelion passages. Its average duration is days (365 d 6 h 13 min 52.6 s) (at the epoch J2011.0).
If Earth moved in an ideal Kepler orbit, i.e. a perfect ellipse with the Sun fixed at one focus, each kind of year would always have the same duration, and the sidereal and anomalistic years would be equal. Because of perturbations by the gravity of other planets, Earth's motion varies slightly, causing the sidereal and tropical years to vary in length by about 25 minutes (see table below). Both are affected in the same way, so that the sidereal year is consistently 20 minutes longer than the tropical year, provided that they are measured in the same way.
{|class="wikitable" ! Winter solstice (Atomic time)!! Deviation of the following year's duration from the mean value SI days}} |- |align=center|2007/12/22 06:04:04.2 |align=right| +10.51 minutes |- |align=center|2008/12/21 12:03:19.7 |align=right| -11.86 minutes |- |align=center|2009/12/21 17:40:13.2 |align=right| +15.91 minutes |- |align=center|2010/12/21 23:44:53.2 |align=right| -11.94 minutes |- |align=center|2011/12/22 05:21:41.8 |align=right| +3.58 minutes |- |align=center|2012/12/21 11:14:01.9 |align=right| +2.85 minutes |- |align=center|2013/12/21 17:05:38.3 |align=right| +0.86 minutes |- |align=center|2014/12/21 22:55:15.2 |align=right| +0.48 minutes |}
An example of a year that will have a duration exceeding the average value of SI days with as much as 24.23 minutes is the one that will begin at winter solstice 2042/12/21 17:47:45.5 (Atomic time)
This term is sometimes erroneously used for the draconic or nodal period of lunar precession, that is the period of a complete revolution of the Moon's ascending node around the ecliptic: Julian years ( days; at the epoch J2000.0).
===Besselian year=== The Besselian year is a tropical year that starts when the (fictitious) mean Sun reaches an ecliptic longitude of 280°. This is currently on or close to 1 January. It is named after the 19th century German astronomer and mathematician Friedrich Bessel. The following equation can be used to compute the current Besselian epoch (in years): : B = 1900.0 + (Julian dateTT − ) /
The TT subscript indicates that for this formula, the Julian date should use the Terrestrial Time scale, or its predecessor, ephemeris time.
Changes in the effective mass of the Sun, caused by solar wind and radiation of energy generated by nuclear fusion and radiated by its surface, will affect the Earth's orbital period over a long time (approximately an extra 1.25 microsecond per year).
Gravitational radiation shortens the year by about 165 attoseconds per year.
An average Gregorian year is days = weeks = hours = minutes = seconds (mean solar, not SI).
A common year is 365 days = hours = minutes = seconds.
A leap year is 366 days = hours = minutes = seconds.
The 400-year cycle of the Gregorian calendar has days and hence exactly weeks.
See also Leap seconds and other aspects of the Gregorian calendar.
The Unified Code for Units of Measure disambiguates the varying symbologies of ISO 1000, ISO 2955 and ANSI X3.50 by using
:ar for are (unit), and:
:at = a_t = days for the mean tropical year
:aj = a_j = 365.25 days for the mean Julian year
:ag = a_g = days for the mean Gregorian year
:a = 1 aj year (without further qualifier)
A definition jointly adopted by the International Union of Pure and Applied Chemistry and the International Union of Geological Sciences is to use annus, with symbol a, for year, defined as the length of the tropical year in the year 2000:
:a = days = seconds
The notation has proved controversial; it conflicts with an earlier convention among geoscientists to use a specifically for "years ago", and y or yr for a one-year time period.
{|class="wikitable" |- | || SI-prefixed equivalent || order of magnitude |- |kyr|| "ka" ||* Thousands forms |- |myr || "Ma" ||* Millions forms |- |byr ||"Ga" ||* Billions forms |- |tya or kya || "ka ago" ||
Use of "mya" and "bya" is deprecated in modern geophysics, the recommended usage being "Ma" and "Ga" for dates Before Present, but "m.y." for the duration of epochs. This ad hoc distinction between "absolute" time and time intervals is somewhat controversial amongst members of the Geological Society of America.
Note that on graphs using "ya" units on the horizontal axis time flows from right to left, which may seem counter-intuitive. If the "ya" units are on the vertical axis, time flows from top to bottom which is probably easier to understand than conventional notation.
Category:Orders of magnitude (time) Category:Time Category:Units of time
af:Jaar als:Jahr am:አመት ang:Gēar ar:سَنَة an:Anyo arc:ܫܢܬܐ (ܙܒܢܐ) ast:Añu ay:Mara az:İl bn:বছর zh-min-nan:Nî map-bms:Taun ba:Йыл be:Год be-x-old:Год bo:ལོ། bs:Godina br:Bloaz bg:Година ca:Any cv:Çулталăк ceb:Tuig cs:Rok ch:Såkkan cy:Blwyddyn da:År de:Jahr et:Aasta el:Έτος eml:An myv:Ие es:Año eo:Jaro eu:Urte fa:سال hif:Saal fr:Année (calendrier) fy:Jier fur:An ga:Bliain gd:Bliadhna gl:Ano (astronomía) gan:年 hak:Ngièn ko:년 haw:Makahiki hr:Godina io:Yaro id:Tahun ia:Anno iu:ᐅᑭᐅᖅ/ukuiq os:Аз is:Ár it:Anno he:שנה jv:Taun kn:ವರ್ಷ ka:წელი csb:Rok kw:Bledhen rw:Umwaka sw:Mwaka ht:Lane ku:Sal lad:Año krc:Джыл lo:ປີ la:Annus lv:Gads lb:Joer lt:Metai li:Jaor jbo:nanca hu:Év mk:Година ml:വർഷം mi:Tau mr:वर्ष arz:سنه ms:Tahun mn:Жил nah:Xihuitl nl:Jaar ne:बर्ष ja:年 no:År nn:År nrm:Aun oc:Annada mhr:Идалык uz:Yil pa:ਸਾਲ pnb:ورہ tpi:Yia nds:Johr pl:Rok pt:Ano ro:An rmy:Bersh qu:Wata rue:Рік ru:Год sah:Сыл se:Jahki sq:Viti scn:Annu simple:Year sk:Rok sl:Leto szl:Rok so:Sanad srn:Yari sr:Година sh:Godina su:Taun fi:Vuosi sv:År tl:Taon ta:ஆண்டு tt:Ел te:సంవత్సరము th:ปี tg:Сол tr:Yıl uk:Рік ur:سال vec:An vi:Năm fiu-vro:Aastak war:Tuig wo:At yi:יאר yo:Ọdún zh-yue:年 bat-smg:Metā zh:年This text is licensed under the Creative Commons CC-BY-SA License. This text was originally published on Wikipedia and was developed by the Wikipedia community.
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