As I complete this post, it’s completely dark outside and it’s only 5 o’clock in the afternoon. Today is 14 December, and most people I come across think that it will continue to get dark earlier and earlier in the afternoons until 21 December, the shortest day of the year (at least for those of us in the northern hemisphere). This, however, is not the case. The evenings in fact start to draw out a week or so before December 21, so it is already getting lighter in the evenings, although it does not start to get lighter in the mornings until early in the new year.
This post aims to explain this interesting phenomenon.
Sunrise and Sunset in December
The table below shows the sunrise and sunset times for London in December 2014.
In the table the daylight interval column shows the number of hours, minutes and seconds between sunrise and sunset. This clearly shows that December 21 has the shortest period of daylight. However, the time of sunrise continues to get later and later throughout the whole of December, whereas the time of sunset starts getting later after December 12.
The column in the table showing the solar noon gives the time of day that the Sun is at its highest in the sky or, to put it another way, the middle of the day at the mid-point between the times of sunrise and sunset. The table shows that, during December, the solar noon moves later and later by about 30 seconds each day.
Why does the solar noon shift ?
A solar day is not always exactly 24 hours. In fact, it is 24 hours only four times a year, and never in December. The definition of a solar day is the period of time between solar noon on one day and solar noon on the next day. It is at its shortest, around 23 hours 59 mins 38 seconds, in mid September and at its longest, around 24 hours 30 seconds around Christmas Day.
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The graph above shows how the length of a solar day differs from 24 hours. The y-axis shows the difference between the length of a solar day and 24 hours on a given date measured in seconds. So, for example, a value of 10 means a solar day is 24 hours 10 seconds long , 20 means a solar day is 24 hours 20 seconds long , -10 means a solar day is only 23 hours 59 minutes 50 seconds long.
As you can imagine, it would be complete chaos if our clocks and watches had to cope with days of different lengths, so we use 24 hours, the average over the whole year, for all timekeeping purposes.
So, as I mentioned before, the solar days in December are on average 24 hours and 30 seconds, while our clocks and watches are still assuming that each day is exactly 24 hours. This causes the day to shift about 30 seconds later each day, as shown in the diagram below. This explains why the evenings start drawing out before the shortest day, but it continues to get darker in the mornings until the new year.
Sundials and the “equation of time”
Before the invention of accurate clocks sundials were widely used to keep time.
Sundial in Harrogate in the North of England
As the length of a solar day varies over the course of a year, the solar time, which is the time given by a sundial, will not be the same as the time measured by a clock which assumes that all days are exactly 24 hours long. Before the invention of accurate clocks in the 17th century because the variation is so small virtually everyone in the world have been unaware of it.
However, in the eighteenth and nineteenth century as mechanical clocks started to take over timekeeping from sundials, the difference between the time measured by an accurate clock which is called mean time and solar time measured by a sundial became more noticeable Astronomers call this difference ‘the equation of time’. It was first calculated and measured by the British astronomer John Flamsteed (1646-1713) in 1673.
Incidentally Flamsteed was appointed by the king as the first British Astronomer Royal in 1675, for which he was given the allowance of £100 per year. He also set up the Royal Observatory at Greenwich, shown below.
The diagram below shows how the equation of time varies throughout the year.
As you can see from the diagram, if we were to use a sundial to measure time
- from 15 Apr to 13 June and 1 Sept to 25 December to the sundial would be fast
- from 25 December to 15 Apr and 13 June to 1 September the sundial would be slow.
The days when the differences are greatest are
- November 3/4 when at 11:44 am, a sundial in London would be showing a time of 12 noon
- February 11/12 when at 12:14 pm a sundial in London would be showing a time of 12 noon.
Why does the length of a solar day vary ?
The reason why the length of the solar day varies is due to two different factors.
- The fact that the Earth moves in an elliptical orbit around the Sun and its speed varies, being faster in earlier January, when it is closer to the Sun and slower in early July, when it is further away.
- The fact that the axis of the Earth’s rotation is tilted.
If you want to know more then please take a look at my video
What about the southern hemisphere ?
And finally….
I hope my readers in the southern hemisphere haven’t felt too left out by this post. In the southern hemisphere the longest day is around December 21. The Sun starts rising later before December 21, but it doesn’t start getting dark earlier in the evening until well after December 21. This is illustrated in the table below, which shows the sunrise and sunset times for December for Wellington in New Zealand, which lies at a latitude of roughly 41 degrees South.
I hope you have enjoyed this post. To find out more about Explaining Science, click on the Home link at the top of this page.
Note
For most places in the world the Sun isn’t at its highest in the sky at 12 noon. This is because, rather than each area having its own local time, the world is divided into time zones, which are normally a whole number of hours ahead of or behind Greenwich Mean Time (GMT). For example, Manchester, where I live, is roughly 2.5 degrees West of Greenwich, but is on the same time zone. Because it is further west, the Sun rises and sets later than it does in Greenwich. From late Oct to late March, in Manchester the Sun is at its highest in the sky at 12:10 pm (on average) compared to 12-noon at Greenwich. At the end of March the UK puts its clocks forward by one hour, so from late March to late October the Sun will be (on average) at its highest in the sky at 1:10 pm in Manchester.
Revised 15 December 2021
Fascinating stuff : it made me wonder just how the earth was set spinning apparently the tides are slowing it down. I also read that the dinosaur day was about 23 hours long.
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Your approach to this topic was perfect. Justified.
Following 😋
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Wow, had no idea about all this. Thanks for this detailed explanation.
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Interesting fact. I didn’t know that!
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This piece is a great way of explaining something that isn’t known by many people – nice work!
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Nice exposé.
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Extremely interesting! I actually live in Wellington NZ and the lag in daylight movement vs clock has always puzzled me.
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I’m always glad to see this early December date. I know that spring is just around the corner. HA! I’m just fooling myself. Our most bitter weather is still a month away here in the midwest. It’s ok. It makes us strong.
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[…] I was just reading post by Science Geek and then I realized that I was learning some stuff for school on similar topic so I decided to make […]
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You post very good information. Thanks
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I like how you always take time with your post and then publish such a good one!
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[…] Source: The evenings are drawing out already […]
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