Julian and Gregorian calendars

Julian and Gregorian calendars date conversion

Julius Caesar introduced Julian calendar in 46 BC. It's believed that it was created by Egyptian astronomers (Alexandrian astronomers headed by Sozigen) although named after Julius.
It acquired its final form in 8 AD.
The year started from the 1st of January because the elected consuls entered the post on that day, and then there were 12 months, 365 or sometimes 366 days.
And that "sometimes" differentiate it from the Gregorian calendar.

Actually, the problem is that a complete revolution around the sun - tropical year - the Earth makes for 365.24219878 days. It's the whole number in the calendar. So if the year consists of 365 days, each year will go ahead by almost a quarter of the day.

It was made simpler in Julian calendar - each 4th year was made a "leap year" and had 366 days. So the length of a year in Julian calendar is 365.25 days which is much closer to a real tropical year.

But not that close - now the calendar lags for 11 minutes 14 seconds each year. It's a whole day in 128 years. This leads to the fact that some of the dates related to astronomical phenomena, such as the astronomical vernal equinox, will begin to shift to the beginning of the calendar year.
The difference between astronomical and calendar vernal equinox, recorded on March 21, became more explicit. As the Easter holiday spring equinox was tied to spring equinox, many Catholic European people believed that the problem has to be dealt with.

Finally, Pope Gregory XIII reformed the calendar and made it known as the Gregorian calendar. Luigi Lilio carried out this project. According to him, later we should consider leap years only those century-olds divided by 4 without residue (1600, 2000, 2400), and others should be considered regular. Also, the deviation of 10 days accumulated since 8 AD was eliminated, and according to the pope's decree from 24 February 1582, after 4th of October 1582, the 15th of October should follow.

The approximate length of a year in the new calendar was 365.2425 days. The deviation was only 26 seconds, and a day deviation can be accumulated for 3300 years.

And we don't need anything more precise. Or we may say it will be our descendant's problems. We can make every year divided by 4000 without residue a common year, and the approximate year length will be 365.24225.

Catholic countries switched to a new calendar almost immediately (no arguing against the pope), protestant countries did that uneasily, and the last one was Great Britain in 1752. And the last country adopted this calendar was orthodox Greece which adopted it in 1929.

Now Julian calendar is used only by few orthodox churches like Serbian and Russian.
Julian calendar is still lagging behind Gregorian - every 100 years (if the century is not divided by 4 without residue) by 1 day or by 3 days per 400 years. This difference is 13 days by the 20th century.

The calculator below transforms the date from the Gregorian calendar to Julian and vice versa. It's easy to use - enter the date, and it will show Julian and Gregorian calendar dates.

Also, there was no Gregorian before 15th October 1582, so you can't tell the date before. However, you can extrapolate it into the past.

PLANETCALC, Julian and Gregorian calendars

Julian and Gregorian calendars

Julian calendar
Gregorian calendar

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PLANETCALC, Julian and Gregorian calendars