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{{Short description|13-month calendar where every date is fixed to a day of the week}} |
{{Short description|13-month calendar where every date is fixed to a day of the week}} |
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{{Use mdy dates|date=October 2019}} |
{{Use mdy dates|date=October 2019}} |
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The '''International Fixed Calendar''' (also known as the |
The '''International Fixed Calendar''' (also known as the '''Cotsworth plan''', the '''Cotsworth calendar''', the '''Eastman plan''' or the '''Yearal''')<ref>Cook, Anna J, (2024) ''A Man Beyond Time: Moses Cotsworth's fight for the 13-month calendar'' Independent Publishing Network</ref> was a proposed [[calendar reform|reform]] of the [[Gregorian calendar]] designed by [[Moses B. Cotsworth]], first presented in 1902.{{sfn | Cotsworth | 1905 | p=}} The International Fixed Calendar divides the year into 13 months of 28 days each. A type of [[Perennial Calendar|perennial calendar]], every date is fixed to the same weekday every year. Though it was never officially adopted at the country level, the entrepreneur [[George Eastman]] instituted its use at the [[Eastman Kodak Company]] in 1928, where it was used until 1989.<ref>{{Cite news |date=1988-09-11 |title=Eastman Kodak going on our calendar |url=https://www.newspapers.com/article/florence-morning-news-eastman-kodak-goin/151919315/ |access-date=2024-07-24 |agency=[[Associated Press]] |pages=}}</ref> While it is sometimes described as ''the'' [[13-month calendar]] or ''the'' equal-month calendar, various alternative calendar designs share these features. |
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== Rules == |
== Rules == |
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The calendar year has 13 months with 28 days each, divided into exactly 4 weeks (13 × 28 = 364). An [[Intercalation (timekeeping)|extra day]] added as a holiday at the end of the year (after December 28, i.e. equal to December 31 Gregorian), sometimes called "Year Day", does not belong to any week and brings the total to 365 days. Each year coincides with the corresponding [[Gregorian calendar|Gregorian]] year, so January 1 in the Cotsworth calendar always falls on Gregorian January 1.{{efn|See the table in {{harvnb | Cotsworth | |
The calendar year has 13 months with 28 days each, divided into exactly 4 weeks (13 × 28 = 364). An [[Intercalation (timekeeping)|extra day]] added as a holiday at the end of the year (after December 28, i.e. equal to December 31 Gregorian), sometimes called "Year Day", does not belong to any week and brings the total to 365 days. Each year coincides with the corresponding [[Gregorian calendar|Gregorian]] year, so January 1 in the Cotsworth calendar always falls on Gregorian January 1.{{efn|See the table in {{harvnb | Cotsworth | 1905 | p=i}} }} Twelve months are named and ordered the same as those of the Gregorian calendar, except that the extra month is inserted between June and July, and called ''Sol''. Situated in mid-summer (from the point of view of its Northern Hemisphere authors) and including the mid-year ''[[solstice]]'', the name of the new month was chosen in homage to the sun.<ref>Cotsworth suggested "Mid" as an alternative name. See his address in Royal Society of Canada, ''Proceedings and Transactions of the Royal Society of Canada,'' 3d series, vol. II (Ottawa: James Hope & Son, 1908), pp. 211-41 at 231.</ref> |
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[[Leap year]]s in the International Fixed Calendar contain 366 days, and its occurrence follows the Gregorian rule. There is a leap year in every year whose number is divisible by 4, but not if the year number is divisible by 100, unless it is also divisible by 400. So although the year 2000 was a leap year, the years 1700, 1800, and 1900 were common years. The International Fixed Calendar inserts the extra day in leap years as June 29 - between Saturday June 28 and Sunday Sol 1. |
[[Leap year]]s in the International Fixed Calendar contain 366 days, and its occurrence follows the Gregorian rule. There is a leap year in every year whose number is divisible by 4, but not if the year number is divisible by 100, unless it is also divisible by 400. So although the year 2000 was a leap year, the years 1700, 1800, and 1900 were common years. The International Fixed Calendar inserts the extra day in leap years as June 29 - between Saturday June 28 and Sunday Sol 1. |
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Each month begins on a Sunday, and ends on a Saturday; consequently, every year begins on Sunday. Neither Year Day nor Leap Day are considered to be part of any week; they are preceded by a Saturday and are followed by a Sunday. |
Each month begins on a Sunday, and ends on a Saturday; consequently, every year begins on Sunday. Neither Year Day nor Leap Day are considered to be part of any week; they are preceded by a Saturday and are followed by a Sunday, making a [[long weekend]]. |
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As a result, a particular day usually has a different day of the week in the IFC than in all traditional calendars that contain a seven-day week. The IFC is, however, almost compatible with the [[World Calendar]] in this regard, because it also starts Sunday and has the extra day at the end of the year and the leap day in the middle, except IFC leaps on Gregorian June 17 and TWC leaps two weeks later on July 1. Since this break of the ancient week cycle has been a major concern raised against its adoption, various [[leap week calendar]]s have been proposed as a solution. |
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All the months look like this: |
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{|class="wikitable" |
{|class="wikitable" |
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|+ Common arrangement of all months |
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|- |
|- |
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!scope="col" colspan=" |
!scope="col" colspan="8"| Days of the week |
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!scope="col" rowspan="5"| Leap Day<br /> in June<br /> on leap years,<br /> or Year Day<br /> in December |
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|- |
|- |
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!scope="col" title="Sunday" | Sun |
!scope="col" title="Sunday" | Sun |
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| Line 24: | Line 23: | ||
!scope="col" title="Friday" | Fri |
!scope="col" title="Friday" | Fri |
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!scope="col" title="Saturday" | Sat |
!scope="col" title="Saturday" | Sat |
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!scope="col" title="Holiday"| Hol |
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|- |
|- |
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| |
| 01 || 02 || 03 || 04 || 05 || 06 || 07 |
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|rowspan="3"| Leap Day,<br /> Year Day |
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|- |
|- |
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| |
| 08 || 09 || 10 || 11 || 12 || 13 || 14 |
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|- |
|- |
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| 15 || 16 || 17 || 18 || 19 || 20 || 21 |
| 15 || 16 || 17 || 18 || 19 || 20 || 21 |
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|- |
|- |
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| 22 || 23 || 24 || 25 || 26 || 27 || 28 ||style="color:#AAA"| |
| 22 || 23 || 24 || 25 || 26 || 27 || 28 ||style="color:#AAA"| ''X''* |
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|} |
|} |
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<nowiki>*</nowiki> The two special dates have been recorded as either the 29th day of the month ending or the 0th day of the month beginning, or, more correctly, as outside any month and week with no ordinal number. |
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| ⚫ | |||
| ⚫ | |||
| ⚫ | |||
| ⚫ | |||
{| class="wikitable" |
{| class="wikitable" |
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|- |
|- |
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!scope="col" rowspan="2"| |
!scope="col" rowspan="2"| IFC |
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!scope="col" colspan="2"| Matching dates on the Gregorian calendar |
!scope="col" colspan="2"| Matching dates on the Gregorian calendar |
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|- |
|- |
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!scope="col"| Starts on fixed day 1 |
!scope="col"| Starts on fixed day 1 |
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!scope="col"| Ends on fixed day 28 |
!scope="col"| Ends on fixed day 28 |
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|- |
|- |
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!scope="row"| January |
!scope="row"| January |
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| April 23* || May 20* |
| April 23* || May 20* |
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|- |
|- |
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!scope="row |
!scope="row"| June |
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| May 21* || June 17* |
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|-style="color:# |
|- style="background-color:#EEE" |
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| |
!scope="ro2| ''Leap Day''* |
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|colspan="2"| June 17 |
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|- |
|- |
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!scope="row"| Sol |
!scope="row"| Sol |
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| November 5 || December 2 |
| November 5 || December 2 |
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|- |
|- |
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!scope="row |
!scope="row"| December |
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| December 3 || December 30 |
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|-style="color:# |
|- style="background-color:#EEE" |
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| |
!scope="row"| ''Year Day'' |
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|colspan="2"| December 31 |
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|} |
|} |
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<nowiki>*</nowiki> |
<nowiki>*</nowiki> In a leap year, these Gregorian dates between March and June are a day earlier. March in the Fixed Calendar always has a fixed number of days (28), and includes an eventual Gregorian February 29. The rule for finding leap years is the same in both calendars. |
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== History == |
== History == |
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[[Lunisolar calendar]]s, with fixed weekdays, existed in many ancient cultures, with certain holidays always falling on the same dates of the month and days of the week. |
[[Lunisolar calendar]]s, with fixed weekdays, existed in many ancient cultures, with certain holidays always falling on the same dates of the month and days of the week. |
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The |
The idea of a 13-month perennial calendar has been around since at least the middle of the 18th century. Versions of the idea differ mainly on how the months are named, and the treatment of the extra day in leap year. |
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The "Georgian calendar" was proposed in 1745 by [[Hugh Jones (professor)|Reverend Hugh Jones]], an American colonist from Maryland writing under the pen name Hirossa Ap-Iccim.<ref>Hirossa Ap-Iccim, [http://www.bodley.ox.ac.uk/cgi-bin/ilej/image1.pl?item=page&seq=1&size=1&id=gm.1745.7.x.15.x.x.377 "An Essay on the British Computation of Time, Coins, Weights, and Measures"] ''The Gentleman's Magazine,'' 15 (1745): 377-379</ref> The author named the plan, and the thirteenth month, after [[George II of Great Britain|King George II of Great Britain]]. The 365th day each year was to be set aside as Christmas. The treatment of leap year varied from the Gregorian rule, however, and the year would begin closer to the [[winter solstice]]. In a later version of the plan, published in 1753, the 13 months were all renamed for Christian saints. |
The "Georgian calendar" was proposed in 1745 by [[Hugh Jones (professor)|Reverend Hugh Jones]], an American colonist from Maryland writing under the pen name Hirossa Ap-Iccim.<ref>Hirossa Ap-Iccim, [http://www.bodley.ox.ac.uk/cgi-bin/ilej/image1.pl?item=page&seq=1&size=1&id=gm.1745.7.x.15.x.x.377 "An Essay on the British Computation of Time, Coins, Weights, and Measures"] ''The Gentleman's Magazine,'' 15 (1745): 377-379</ref> The author named the plan, and the thirteenth month, after [[George II of Great Britain|King George II of Great Britain]]. The 365th day each year was to be set aside as Christmas. The treatment of leap year varied from the Gregorian rule, however, and the year would begin closer to the [[winter solstice]]. In a later version of the plan, published in 1753, the 13 months were all renamed for Christian saints. |
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In 1849 the French philosopher [[Auguste Comte]] (1798–1857) proposed the 13-month ''[[Positivist Calendar]]'', naming the months: [[Moses]], [[Homer]], [[Aristotle]], [[Archimedes]], [[Julius Caesar|Caesar]], [[Paul of Tarsus|St Paul]], [[Charlemagne]], [[Dante Alighieri|Dante]], [[Johannes Gutenberg|Gutenberg]], [[William Shakespeare|Shakespeare]], [[René Descartes|Descartes]], [[Frederick II of Prussia|Frederic]] and [[Xavier Bichat|Bichat]]. The days of the year were likewise dedicated to "saints" in the Positivist [[Religion of Humanity]]. Positivist weeks, months, and years begin with Monday instead of Sunday. Comte also reset the year number, beginning the era of his calendar (year 1) with the Gregorian year 1789. For the extra days of the year not belonging to any week or month, Comte followed the pattern of Ap-Iccim (Jones), ending each year with a festival on the 365th day, followed by a subsequent feast day occurring only in leap years. |
In 1849 the French philosopher [[Auguste Comte]] (1798–1857) proposed the 13-month ''[[Positivist Calendar]]'', naming the months: [[Moses]], [[Homer]], [[Aristotle]], [[Archimedes]], [[Julius Caesar|Caesar]], [[Paul of Tarsus|St Paul]], [[Charlemagne]], [[Dante Alighieri|Dante]], [[Johannes Gutenberg|Gutenberg]], [[William Shakespeare|Shakespeare]], [[René Descartes|Descartes]], [[Frederick II of Prussia|Frederic]] and [[Xavier Bichat|Bichat]]. The days of the year were likewise dedicated to "saints" in the Positivist [[Religion of Humanity]]. Positivist weeks, months, and years begin with Monday instead of Sunday. Comte also reset the year number, beginning the era of his calendar (year 1) with the Gregorian year 1789. For the extra days of the year not belonging to any week or month, Comte followed the pattern of Ap-Iccim (Jones), ending each year with a festival on the 365th day, followed by a subsequent feast day occurring only in leap years. |
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Whether Moses Cotsworth was familiar with the 13-month plans that preceded his International Fixed Calendar is not known. He did follow Ap-Iccim (Jones) in designating the 365th day of the year as Christmas. His suggestion was that this last day of the year should be designated a Sunday, and hence, because the following day would be New Year's Day and a Sunday also, he called it a Double Sunday.{{sfn | Cotsworth | |
Whether Moses Cotsworth was familiar with the 13-month plans that preceded his International Fixed Calendar is not known. He did follow Ap-Iccim (Jones) in designating the 365th day of the year as Christmas. His suggestion was that this last day of the year should be designated a Sunday, and hence, because the following day would be New Year's Day and a Sunday also, he called it a Double Sunday.{{sfn | Cotsworth | 1905 | p=i}} Since Cotsworth's goal was a simplified, more "rational" calendar for business and industry, he would carry over all the features of the Gregorian calendar consistent with this goal, including the traditional month names, the week beginning on Sunday (still traditionally used in US, but uncommon in Europe and in the [[International Organization for Standardization|ISO]] [[ISO week date#Advantages|week standard]], starting their weeks on Monday), and the Gregorian leap-year rule. |
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| ⚫ | To promote Cotsworth's calendar reform the International Fixed Calendar League was founded in 1923, just after the plan was selected by the [[League of Nations]] as the best of 130 calendar proposals put forward.<ref>Duncan Steel, ''Marking Time: The Epic Quest to Invent the Perfect Calendar'' (New York: John Wiley & Sons, 2000), page 309</ref> [[Sandford Fleming|Sir Sandford Fleming]], the inventor and driving force behind worldwide adoption of [[standard time]], became the first president of the IFCL.<ref>Moses |
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== Advantages == |
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The several advantages of the International Fixed Calendar are mainly related to its organization. |
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* The subdivision of the year is very regular and systematic: |
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** Each month has exactly 4 weeks (28 days). |
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** Every day of the month falls on the same weekday in each month (e.g. the 17th always falls on a Tuesday). |
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** Every year has exactly 52 weeks divided among 13 months. |
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** Every year has 4 equal-length quarters of 91 days, each 13 weeks or {{frac|3|1|4}} months long. |
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* The calendar is the same every year (perennial), unlike the annual Gregorian calendar, which differs from year to year. Hence, scheduling is easier for institutions and industries with extended production cycles. |
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* Movable holidays celebrated on the ''n''th certain weekday of a month, such as U.S. [[Thanksgiving day]], would be able to have a fixed date while keeping their traditional weekday. |
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* Statistical comparisons by months are more accurate, since all months contain exactly the same number of business days and weekends, likewise for comparisons by 13 week quarters. |
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* Although the average menstrual cycle of women is often described as 28 days, there is variation and debate about this in the literature.<ref>{{Cite journal |last1=Bull |first1=Jonathan R. |last2=Rowland |first2=Simon P. |last3=Scherwitzl |first3=Elina Berglund |last4=Scherwitzl |first4=Raoul |last5=Danielsson |first5=Kristina Gemzell |last6=Harper |first6=Joyce |date=2019-08-27 |title=Real-world menstrual cycle characteristics of more than 600,000 menstrual cycles |journal=npj Digital Medicine |language=en |volume=2 |issue=1 |page=83 |doi=10.1038/s41746-019-0152-7 |pmid=31482137 |pmc=6710244 |issn=2398-6352|doi-access=free }}</ref> Still, a consistent number of days in a month might prove beneficial for tracking periods and fertility with more ease. |
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**The first mention of this argument can be found in September 1927 issue of ''The Outlook'' briefly mentioned an advantage to women without detail. A 2014 article in ''Bloomberg'' that explores that previous article cites an unnamed woman the author personally knew who sarcastically disagreed with such an advantage.<ref>{{Cite news |date=2014-12-11 |title=The Death and Life of the 13-Month Calendar |language=en |work=Bloomberg.com |url=https://www.bloomberg.com/news/articles/2014-12-11/the-death-and-life-of-the-13-month-calendar |access-date=2022-06-02}}</ref> Overall opinions of women on this calendar change as related to the menstrual cycle haven't been studied. |
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* Supporters of the International Fixed Calendar have argued that thirteen equal divisions of the year are superior to twelve unequal divisions in terms of monthly cash flow in the economy.<ref>{{cite magazine |first=Frank Parker |last=Stockbridge |date=June 1929 |title=New calendar by 1933 - Eastman |magazine=[[Popular Science|Popular Science Monthly]] |issue=32 |pages=131–133}}</ref><ref>{{cite magazine |first=George |last=Eastman |date=May 1926 |title=The importance of calendar reform to the world of business |magazine=The Nation's Business |pages=42, 46}}</ref> |
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| ⚫ | To promote Cotsworth's calendar reform the International Fixed Calendar League was founded in 1923, just after the plan was selected by the [[League of Nations]] as the best of 130 calendar proposals put forward.<ref>Duncan Steel, ''Marking Time: The Epic Quest to Invent the Perfect Calendar'' (New York: John Wiley & Sons, 2000), page 309</ref> [[Sandford Fleming|Sir Sandford Fleming]], the inventor and driving force behind worldwide adoption of [[standard time]], became the first president of the IFCL.<ref>Moses Bruines Cotsworth, ''Calendar Reform'' (London: The International Fixed Calendar League, 1927), Preface.</ref> The League opened offices in [[London]] and later in [[Rochester, New York]]. [[George Eastman]], of the [[Eastman Kodak Company]], became a fervent supporter of the IFC, and instituted its use at Kodak. Some organized opposition to the proposed reform came from rabbi [[Joseph Hertz]], who objected to the way that the [[Shabbat|Jewish Sabbath]] would move throughout the week.<ref>{{cite news|title=Calendar Reform and Joseph Herman Hertz|url=http://www.jta.org/2012/02/24/the-archive-blog/calendar-reform-and-joseph-herman-hertz|access-date=October 4, 2019|newspaper=[[Jewish Telegraphic Agency]]|date=February 24, 2012|author=Benjamin J. Elton}}</ref> The International Fixed Calendar League ceased operations shortly after the calendar plan failed to win final approval of the League of Nations in 1937.<ref>''Journal of Calendar Reform'' volume 16, number 4 (1944): 165-66</ref> |
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== Disadvantages == |
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* Since its 13 months are not easily grouped into four season-like quarters, this calendar obfuscates how Earth circles the Sun. Solstices and equinoxes are on fixed dates but those are not as similar as in the Gregorian calendar, i.e. 20th to 23rd day of the 3rd, 6th, 9th and 12th month. Likewise, the start dates of the astrological signs of the [[zodiac]] are more arbitrarily placed, while the underlying [[constellation]]s are now disconnected in any calendar. |
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* While each quarter would be equal in length (13 weeks), thirteen is a prime number, placing all activities currently done on a quarterly basis out of alignment with the months. |
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* Some [[Judaism|Jewish]] and [[Christianity|Christian]] leaders denounced the calendar as their tradition of worshipping every seventh day would result in either the day of the week of worship changing from year to year or eight days passing when Year Day or Leap Day occurs.<ref>{{cite news|title=Calendar Reform and Joseph Herman Hertz|url=http://www.jta.org/2012/02/24/the-archive-blog/calendar-reform-and-joseph-herman-hertz|access-date=October 4, 2019|newspaper=[[Jewish Telegraphic Agency]]|date=February 24, 2012|author=Benjamin J. Elton}}</ref> |
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* The calendar is inconsistent with [[ISO 8601]] regarding the first weekday of the week (Sunday vs. Monday), meaning major parts of the world would have to change their first weekday of the week. |
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* [[Birthday]]s, significant anniversaries, and other holidays would always be on the same day of the week. This could be problematic for [[public holiday]]s that would fall on non-working days under the new system: for example, if a public holiday is celebrated on January 8, then under the International Fixed Calendar that holiday would always fall on a Sunday, which is already a non-working day, so compensatory leave would have to be given each year on January 9, which would essentially change the date of the holiday. This would be especially significant for any holidays or recurring events that take place on the 29th, 30th, or 31st days of the month where a new date would have to be determined entirely (likely the first day of the following month). However, in the case of federally observed holidays in the [[United States]], those that would fall on a normal floating Monday could be observed to the previous Friday. |
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==See also== |
==See also== |
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===Sources=== |
===Sources=== |
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{{refbegin}} |
{{refbegin}} |
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* {{cite book | last=Cotsworth | first=M.B. | title=The Rational Almanac: Tracing the Evolution of Modern Almanacs from Ancient Ideas of Time, and Suggesting Improvements | publisher=Author | year= |
* {{cite book | last=Cotsworth | first=M.B. | title=The Rational Almanac: Tracing the Evolution of Modern Almanacs from Ancient Ideas of Time, and Suggesting Improvements | publisher=Author | year=1905 | url=https://books.google.com/books?id=k7z9MgEACAAJ }} |
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{{refend}} |
{{refend}} |
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[[Category:1902 in science]] |
[[Category:1902 in science]] |
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[[Category:1902 works]] |
[[Category:1902 works]] |
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[[Category:George Eastman]] |
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[[Category:Kodak]] |
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Latest revision as of 04:22, 20 November 2024
The International Fixed Calendar (also known as the Cotsworth plan, the Cotsworth calendar, the Eastman plan or the Yearal)[1] was a proposed reform of the Gregorian calendar designed by Moses B. Cotsworth, first presented in 1902.[2] The International Fixed Calendar divides the year into 13 months of 28 days each. A type of perennial calendar, every date is fixed to the same weekday every year. Though it was never officially adopted at the country level, the entrepreneur George Eastman instituted its use at the Eastman Kodak Company in 1928, where it was used until 1989.[3] While it is sometimes described as the 13-month calendar or the equal-month calendar, various alternative calendar designs share these features.
Rules
[edit]The calendar year has 13 months with 28 days each, divided into exactly 4 weeks (13 × 28 = 364). An extra day added as a holiday at the end of the year (after December 28, i.e. equal to December 31 Gregorian), sometimes called "Year Day", does not belong to any week and brings the total to 365 days. Each year coincides with the corresponding Gregorian year, so January 1 in the Cotsworth calendar always falls on Gregorian January 1.[a] Twelve months are named and ordered the same as those of the Gregorian calendar, except that the extra month is inserted between June and July, and called Sol. Situated in mid-summer (from the point of view of its Northern Hemisphere authors) and including the mid-year solstice, the name of the new month was chosen in homage to the sun.[4]
Leap years in the International Fixed Calendar contain 366 days, and its occurrence follows the Gregorian rule. There is a leap year in every year whose number is divisible by 4, but not if the year number is divisible by 100, unless it is also divisible by 400. So although the year 2000 was a leap year, the years 1700, 1800, and 1900 were common years. The International Fixed Calendar inserts the extra day in leap years as June 29 - between Saturday June 28 and Sunday Sol 1.
Each month begins on a Sunday, and ends on a Saturday; consequently, every year begins on Sunday. Neither Year Day nor Leap Day are considered to be part of any week; they are preceded by a Saturday and are followed by a Sunday, making a long weekend. As a result, a particular day usually has a different day of the week in the IFC than in all traditional calendars that contain a seven-day week. The IFC is, however, almost compatible with the World Calendar in this regard, because it also starts Sunday and has the extra day at the end of the year and the leap day in the middle, except IFC leaps on Gregorian June 17 and TWC leaps two weeks later on July 1. Since this break of the ancient week cycle has been a major concern raised against its adoption, various leap week calendars have been proposed as a solution.
| Days of the week | |||||||
|---|---|---|---|---|---|---|---|
| Sun | Mon | Tue | Wed | Thu | Fri | Sat | Hol |
| 01 | 02 | 03 | 04 | 05 | 06 | 07 | Leap Day, Year Day |
| 08 | 09 | 10 | 11 | 12 | 13 | 14 | |
| 15 | 16 | 17 | 18 | 19 | 20 | 21 | |
| 22 | 23 | 24 | 25 | 26 | 27 | 28 | X* |
* The two special dates have been recorded as either the 29th day of the month ending or the 0th day of the month beginning, or, more correctly, as outside any month and week with no ordinal number.
The date for today, 24 December 2024, using this calendar is Sunday, 22 December 2024.
The following table shows how the 13 months and extra days of the International Fixed Calendar occur in relation to the dates of the Gregorian calendar:
| IFC | Matching dates on the Gregorian calendar | |
|---|---|---|
| Starts on fixed day 1 | Ends on fixed day 28 | |
| January | January 1 | January 28 |
| February | January 29 | February 25 |
| March | February 26 | March 25* |
| April | March 26* | April 22* |
| May | April 23* | May 20* |
| June | May 21* | June 17* |
| Leap Day* | June 17 | |
| Sol | June 18 | July 15 |
| July | July 16 | August 12 |
| August | August 13 | September 9 |
| September | September 10 | October 7 |
| October | October 8 | November 4 |
| November | November 5 | December 2 |
| December | December 3 | December 30 |
| Year Day | December 31 | |
* In a leap year, these Gregorian dates between March and June are a day earlier. March in the Fixed Calendar always has a fixed number of days (28), and includes an eventual Gregorian February 29. The rule for finding leap years is the same in both calendars.
History
[edit]Lunisolar calendars, with fixed weekdays, existed in many ancient cultures, with certain holidays always falling on the same dates of the month and days of the week.
The idea of a 13-month perennial calendar has been around since at least the middle of the 18th century. Versions of the idea differ mainly on how the months are named, and the treatment of the extra day in leap year.
The "Georgian calendar" was proposed in 1745 by Reverend Hugh Jones, an American colonist from Maryland writing under the pen name Hirossa Ap-Iccim.[5] The author named the plan, and the thirteenth month, after King George II of Great Britain. The 365th day each year was to be set aside as Christmas. The treatment of leap year varied from the Gregorian rule, however, and the year would begin closer to the winter solstice. In a later version of the plan, published in 1753, the 13 months were all renamed for Christian saints.
In 1849 the French philosopher Auguste Comte (1798–1857) proposed the 13-month Positivist Calendar, naming the months: Moses, Homer, Aristotle, Archimedes, Caesar, St Paul, Charlemagne, Dante, Gutenberg, Shakespeare, Descartes, Frederic and Bichat. The days of the year were likewise dedicated to "saints" in the Positivist Religion of Humanity. Positivist weeks, months, and years begin with Monday instead of Sunday. Comte also reset the year number, beginning the era of his calendar (year 1) with the Gregorian year 1789. For the extra days of the year not belonging to any week or month, Comte followed the pattern of Ap-Iccim (Jones), ending each year with a festival on the 365th day, followed by a subsequent feast day occurring only in leap years.
Whether Moses Cotsworth was familiar with the 13-month plans that preceded his International Fixed Calendar is not known. He did follow Ap-Iccim (Jones) in designating the 365th day of the year as Christmas. His suggestion was that this last day of the year should be designated a Sunday, and hence, because the following day would be New Year's Day and a Sunday also, he called it a Double Sunday.[6] Since Cotsworth's goal was a simplified, more "rational" calendar for business and industry, he would carry over all the features of the Gregorian calendar consistent with this goal, including the traditional month names, the week beginning on Sunday (still traditionally used in US, but uncommon in Europe and in the ISO week standard, starting their weeks on Monday), and the Gregorian leap-year rule.
To promote Cotsworth's calendar reform the International Fixed Calendar League was founded in 1923, just after the plan was selected by the League of Nations as the best of 130 calendar proposals put forward.[7] Sir Sandford Fleming, the inventor and driving force behind worldwide adoption of standard time, became the first president of the IFCL.[8] The League opened offices in London and later in Rochester, New York. George Eastman, of the Eastman Kodak Company, became a fervent supporter of the IFC, and instituted its use at Kodak. Some organized opposition to the proposed reform came from rabbi Joseph Hertz, who objected to the way that the Jewish Sabbath would move throughout the week.[9] The International Fixed Calendar League ceased operations shortly after the calendar plan failed to win final approval of the League of Nations in 1937.[10]
See also
[edit]References
[edit]Notes
[edit]- ^ See the table in Cotsworth 1905, p. i
Citations
[edit]- ^ Cook, Anna J, (2024) A Man Beyond Time: Moses Cotsworth's fight for the 13-month calendar Independent Publishing Network
- ^ Cotsworth 1905.
- ^ "Eastman Kodak going on our calendar". Associated Press. September 11, 1988. Retrieved July 24, 2024.
- ^ Cotsworth suggested "Mid" as an alternative name. See his address in Royal Society of Canada, Proceedings and Transactions of the Royal Society of Canada, 3d series, vol. II (Ottawa: James Hope & Son, 1908), pp. 211-41 at 231.
- ^ Hirossa Ap-Iccim, "An Essay on the British Computation of Time, Coins, Weights, and Measures" The Gentleman's Magazine, 15 (1745): 377-379
- ^ Cotsworth 1905, p. i.
- ^ Duncan Steel, Marking Time: The Epic Quest to Invent the Perfect Calendar (New York: John Wiley & Sons, 2000), page 309
- ^ Moses Bruines Cotsworth, Calendar Reform (London: The International Fixed Calendar League, 1927), Preface.
- ^ Benjamin J. Elton (February 24, 2012). "Calendar Reform and Joseph Herman Hertz". Jewish Telegraphic Agency. Retrieved October 4, 2019.
- ^ Journal of Calendar Reform volume 16, number 4 (1944): 165-66
Sources
[edit]- Cotsworth, M.B. (1905). The Rational Almanac: Tracing the Evolution of Modern Almanacs from Ancient Ideas of Time, and Suggesting Improvements. Author.
External links
[edit]- Cotsworth Calendar of George Eastman
- NUCAL New Universal Calendar Project
- International Fixed Calendar League
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