Gregorian calendar off by 26 seconds a year

In summary: We make a proposal to the International Earth Rotation and Reference Systems Service (IERS) to add a leap second about every four years. We don't need to know the seasons to an accuracy of a few seconds.In summary, the Gregorian calendar is off by 26 seconds per year from the solar calendar. This error accumulates over time, resulting in an error of about 43 minutes every 100 years. This error is largely corrected by adding leap seconds to the calendar every four years, but there is a proposal to stop doing this.
  • #1
Scraff
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I just read that the Gregorian calendar is off by 26 seconds a year from the solar calendar. That adds up to about 43 minutes ever 100 hundred years.

Does this mean that if it starts to get dark at 5:30 pm on the East coast on December 1st, that it got darker 43 minutes earlier or later 100 years ago and that it will be off by another 43 minutes 100 years from now?
 
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  • #2
The gregorian calendar is much more accursate than that (1 day in 6000 years)
In fact random changes in the Earth's rotation due to weather / climate etc have a bigger effect.

We currently add leap seconds (to allow for both the Earth's predicatable slowdown due to tidal friction and random changes) to keep clocks in sync with the seasons. There is a proposal to stop adding leap seconds since reseting computers every year is a pain but nobody needs to know the seasons to an accuracy of a few seconds.
 
  • #3
Scraff said:
I just read that the Gregorian calendar is off by 26 seconds a year from the solar calendar.

That error is equivalent to 1 day per 3300 years, which is indeed the error in the mean Gregorian year as compared to the mean tropical year. mgb_phys cited an error about half that (1 day in 6000 years), which is the error in the mean Gregorian year compared to the mean equinoctical year.

It is better to express the error over a very long term rather than over one year. Most years in the Gregorian calendar are not leap years and are thus 365 days long. These years have an "error" of about -6 hours, not 26 seconds. Leap years are even worse, with an error of about 18 hours. The careful balance of normal years and leap years in the Gregorian calendar makes the long term error in the Gregorian calendar very, very small.
 
  • #4
Scraff said:
Does this mean that if it starts to get dark at 5:30 pm on the East coast on December 1st, that it got darker 43 minutes earlier or later 100 years ago and that it will be off by another 43 minutes 100 years from now?

This is the danger of looking at the Gregorian calander error as "26 seconds per year". A day is 86,400 seconds long, exactly. We occasionally add or subtract one leap second to keep local midnight at the Greenwich meridian within one second of 00:00 UTC. A normal Gregorian year is 365 days long, exactly. We occasionally add one leap day to keep the vernal equinox within one day of March 21. The formula for adding a leap year is very well defined. The formula for adding a leap second is not. We know we need to add a leap second by observation only.
 

What is the Gregorian calendar?

The Gregorian calendar is the most widely used calendar in the world today. It was introduced by Pope Gregory XIII in 1582 and is based on the solar cycle, with each year consisting of 365 days, except for leap years which have 366 days.

Why is the Gregorian calendar off by 26 seconds a year?

The Gregorian calendar is off by 26 seconds due to the slight discrepancy between the solar year (the time it takes for the Earth to orbit the sun) and the calendar year. The calendar year is 365 days, 5 hours, 48 minutes, and 46 seconds, which is about 26 seconds longer than the solar year.

How does the Gregorian calendar account for this discrepancy?

The creators of the Gregorian calendar accounted for this discrepancy by adding a leap day every four years. This keeps the calendar in sync with the solar cycle, as the extra day balances out the extra 6 hours that accumulate every year. However, this still results in a small error of 26 seconds per year.

What impact does this error have on the calendar?

Over time, the error of 26 seconds per year can add up and cause the calendar to drift away from the actual solar cycle. This means that the seasons and astronomical events, such as equinoxes and solstices, may not align perfectly with the dates on the calendar. This is why we occasionally have leap seconds added to our clocks to account for this discrepancy.

Is there any proposed solution to this issue?

Some scientists have proposed alternative calendars, such as the Holocene calendar, which would divide the year into 12 months of exactly 30 days each, with 5 or 6 additional days at the end of the year to account for the leftover time. However, the Gregorian calendar remains the most widely used and accepted calendar in the world today.

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