Sun in gemini dates8/12/2023 ![]() ![]() Because the Earth has moved 1/365th of the way around the Sun in a day, it has to rotate more than 360 degrees in order for the Sun to appear in the same part of the sky (e.g., transiting the meridian) as it did yesterday. The difference is caused by the slow drift of the Earth around the Sun. The length of time between transits for a star (any star) is called a Sidereal Day, and the length of time between transits for the Sun is called a Solar Day. A natural question to ask is, “How long does it take for star A to appear in the same spot in the sky one day later?” That is, let’s say that star A is “transiting your meridian” (this means that if you draw the imaginary line on the sky that connects due North to due South, the star is passing this line at this particular instant in time), how long will it be until star A transits your meridian the next time? You may be tempted to say 24 hours, but the correct answer is 23 hours and 56 minutes! If you do the same exercise for the Sun-that is, if you calculate the time between successive transits of the Sun-it is 24 hours (although it does vary over the course of the year, and some days are slightly longer and others are slightly shorter than 24 hours). We know that the rotation of the Earth causes stars to appear to make circles or arcs on the sky that start in the east and move westward. The stars are so far away from the Earth that, again, for our purposes, we can consider them to be fixed. This is reasonably easy to visualize when you think of the extreme case of the differences in the position of the Earth six months apart, but what happens on a day to day basis? The way to visualize it is as follows. The constellation behind the Sun at noon in June is Gemini, and twelve hours later, when the Earth is facing directly away from the Sun, it is pointed towards the constellation of Sagittarius. ![]() In June, the situation is completely reversed because the Earth is on the opposite side of the Sun. Twelve hours later, when the Earth has rotated so that it is night, the Earth is facing directly away from the Sun, towards the constellation of Gemini. The second Starry Night movie shown above demonstrates that in December, when the Earth is facing the Sun, the constellation behind the Sun is Sagittarius. So, in December, the Earth will be on one side of the Sun, and six months later, in June, it will be on the opposite side of the Sun. In one year, the Earth will make a complete trip around the Sun. The Earth is also orbiting around the Sun. The Earth isn’t just rotating in a fixed spot in space. This is mostly correct, however, there is one effect that we are neglecting to take into consideration. That is, if the Sun appears to be in the constellation of Gemini at dawn, then it will still be in Gemini at noon and at Sunset. ![]() Thus, the Sun will be seen inside of the same constellation during the entire day. ![]() As we discussed at the beginning of the lesson, it is the rotation of the Earth that causes the Sun and the stars to move across the sky, so we should expect that the Sun and the stars should both appear to move at the same rate. In the first of the two movies, notice the Sun's position relative to the constellation Virgo at 7:00 AM, noon and 6:00 PM. To be even more specific, realize that the constellations are made up of stars far in the background, so when we say the Sun is "inside" a constellation, we mean that we are seeing the Sun in projection in front of a specific group of distant stars. If you could see the Sun and the stars simultaneously, you would see that during the course of one day, the Sun would be inside one constellation (to be more specific, one of the constellations of the Zodiac). ![]()
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