Mercury’s odd and fascinating day

On our planet, the Sun appears in the east, then it rises and when it reaches the highest point in the sky, it is noon. After that, the Sun descends towards the horizon and sets in the west. Then it’s evening. When the Sun rises again one day is completed.

We can also count the beginning of the day from the second position of the Sun in the sky, say from its highest position, as it used to be calculated (until 1925, when the International Astronomical Union decided that the day begins at midnight).

So, we can say that one day lasts from noon to the next noon, or from one dawn to the next, or from one evening to the next. That’s how it is on Earth.

It’s different on Mercury. There the Sun appears and rises above the horizon, then stops slightly, moves back, and then moves forward again. And that’s not all.

A day on Mercury (from dawn to dawn, or from noon to noon, etc.) is the longest day in the entire solar system. Finally, a day on Mercury is longer than the entire Mercury year.

One Year

Let’s explain it all. A year is the time period between two consecutive positions of a planet on its path around the Sun (i.e. when the planet completes its entire path around the star).

We need a point from which we will measure time. Let’s say we start from the perihelion, which is the point on the path of the planet around the Sun, where the planet is closest to the Sun.

When Mercury goes around its entire path around the Sun and comes to perihelion again, one Mercury year is completed. During that time, 88 days have passed on Earth. So, one year on Mercury lasts 88 Earth days.

Rotation

Mercury, like the other planets, also rotates around its axis.

When it turns 360 degrees, it makes one rotation. Imagine that you are observing a distant star from Mercury through a stationary, fixed telescope. The telescope is aimed at that star, but as Mercury rotates, the star soon leaves the telescope’s field of view.

However, after some time Mercury will make a complete rotation, it will turn for a full 360 degrees and our telescope will again “hit” the star that we observed at the beginning. So, Mercury turned once around its axis, made one rotation.

During that time, 58.6 days have passed on our planet, Earth.

One Odd Day

We measure the day from one position of the Sun in the sky to the next position. Now we are observing the movement in relation to the Sun. Let our telescope be pointed towards the Sun at the beginning of the measurement.

Look at the drawing. Notice that Mercury moves around the Sun and at the same time around its axis.

Tos, CC BY-SA 3.0, via Wikimedia Commons

We start from position 1. Mercury continues through points 2, 3, 4 and arrives at point 5.

At that point it made its first rotation but note that it has not yet reached the starting point, that it has not yet made a full circuit around the Sun.

So, one Mercury year has not yet been completed!

When Mercury arrives, after point 6 to point 7, the year on Mercury has ended, but our telescope does not yet show the Sun – but is directed to the opposite side. For the observer by the telescope, it is then midnight.

At this point, only half of Mercury’s day has passed – and one entire Mercury year.

Fascinating, isn’t it?

It will, in fact, take one more full rotation for the telescope to arrive at the start point 1, pointing at the Sun.

This means that one day has passed on Mercury, but at the same time Mercury completed its path around the Sun twice, during that time it turned around its axis three times, and 176 days passed on Earth.

 

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Nevena Glogovac Writer at Online Star Register

Glogovac Nevena-Nancy is a geodesy & geoinformatics engineer by trade and a wordsmith at heart. By holding onto fate’s rocky learning curve and her natural flair for the extraordinary, the worlds of science and creativity melted and unified into a singular path. Moreover, having been born on the same soil as the geniuses Nikola Tesla, Mihajlo Pupin and Milutin Milankovic provided an educational basis for Nevena to continue the voyages they had begun. Led simply by the curious need to discover more. A small but meaningful contribution to this personal endeavor has been joining forces with the visionary OSR team, where astrology and astronomy go back to their common roots, so 'If you want to find the secrets of the universe, think in terms of energy, frequency and vibration.'