The zodiac, the 12 signs listed in a horoscope, is closely tied to how the Earth moves through the sky. We derive these signs from the constellations that mark out the path that the sun appears to take through the year. You might think that dates in a horoscope correspond to when the sun passes through each constellation. But they don’t, much of the time, because astrology and astronomy are different systems. Plus, a closer examination of the motion of the Earth, the sun, and the stars, shows the zodiac to be more intricate than you might imagine!
Moon lovers! Order this year’s EarthSky lunar calendar here
The sun’s motion through the constellations
As Earth orbits the sun, the sun appears to pass in front of different constellations. Much like the moon appears in a slightly different place in the sky each night, the location of the sun relative to distant background stars drifts in an easterly direction from day to day. It’s not that the sun is actually moving. Its motion is entirely an illusion, caused by Earth’s own motion around our star.
Over the course of a year, the sun appears to be in front of, or “in”, different constellations. One month, the sun appears in Gemini; the next month, in Cancer. The dates listed in the newspaper’s horoscope identify when the sun appears in a particular astrological sign. For example, the time between March 21 and April 19, is set aside for the sign Aries. But your astrological sign doesn’t necessarily tell you what constellation the sun was in on the day you were born.
If only it was that simple!
Why the zodiac constellations don’t always align with astrological signs
To understand why constellations no longer align with their corresponding signs, we need to know a little bit more about how the Earth moves. We also need to talk about how we measure time.
Time is a fiendishly difficult thing to define, especially if we insist on using the sun and stars as a reference. Our calendar is, for better or worse, tied to the seasons. June 21 – the approximate date of summer solstice north of the equator and the winter solstice to the south – marks the day the sun appears at its most northerly point in the sky. At the June solstice, the North Pole is most tilted towards the sun.
What makes this complicated is that the North Pole is not always pointing in the same direction relative to the background stars. Our planet spins like a top. Like a top, the Earth also wobbles! A wobbling Earth makes the North Pole trace out a circle on the celestial sphere. The wobble is quite slow; it takes 26,000 years to go around once. But, as the years go by, the effect accumulates.
Over the course of one orbit around the sun, the direction of the Earth’s axis drifts ever so slightly. This means that the place along our orbit where the solstice occurs also changes by a very small amount. The solstice actually occurs about 20 minutes earlier than one full trip in front of the background stars!
Our drifting calendars
Since we tie our calendar (and astrologers tie the signs) to the solstices and equinoxes, the Earth doesn’t actually complete an entire orbit in one year. The seasonal or tropical year is actually a hair less time than one full orbit (sidereal year). This means that, each year, the sun’s location relative to the stars on any given day – June 21, for example – drifts a very tiny amount.
But wait about 2,000 years, and the sun will sit in an entirely different constellation!
On the June solstice 2,000 years ago, the sun sat almost halfway between Gemini and Cancer. Fourteen years ago, on the June solstice, the sun was sitting between Gemini and Taurus. In the year 4609, the June solstice point will pass out of the constellation Taurus and into the constellation Aries.
The signs aligned, more or less, with their corresponding constellations when people defined the modern Western zodiac about 2,000 years ago. But in the intervening centuries, the slow wobble of the Earth’s axis has caused the solstice and equinox points to shift roughly 30 degrees westward relative to the constellations. At present, signs and constellations are about one calendar month off. In another two thousand years or so, they’ll be about two months off.
Modern constellations and the zodiac
To complicate matters more, the constellations – unlike the astrological signs – are not of equal size and shape. The stars that make up a constellation are not, for the most part, physically related. They’re just based on patterns that our ancestors saw as they gazed skyward and tried to make sense of it all.
In 1930, the International Astronomical Union formalized the constellations as regions of the sky, not just the star patterns within them. With this, they defined the boundaries we use today. These modern constellations are rooted in those the Greek astronomer Ptolemy introduced in the second century CE. He, in turn, borrowed them from ancient Babylonian texts. Different cultures have seen patterns in the sky unique to their history. Many cultures share some constellations (Orion is a notable example), but most don’t.
With the current boundaries, there are actually 13 constellations that lie along the sun’s path. The extra one not listed in any horoscope is Ophiuchus, the Serpent Bearer, which sits between Sagittarius and Scorpius. Whereas the signs remain fixed relative to the solstices and equinoxes, the solstices and equinoxes drift westward relative to the constellations or backdrop stars.
While the zodiac may not be a great predictor of love, fortune, and health, it is a great tool for better understanding the motions of the sun, the Earth, and even the cultures that have come and gone on our little planet. The zodiac signs, derived from the constellations along the sun’s path in the sky, track the orbit and wobble of Earth and remind us of astronomy’s humble roots.
Bottom line: You might associate the word zodiac with astrology, but it has an honored place in astronomy, too. The zodiac is composed of the 12 constellations that lie along the annual path of the sun across the sky.
The post What is the zodiac? first appeared on EarthSky.
from EarthSky https://ift.tt/3qflZ9y
The zodiac, the 12 signs listed in a horoscope, is closely tied to how the Earth moves through the sky. We derive these signs from the constellations that mark out the path that the sun appears to take through the year. You might think that dates in a horoscope correspond to when the sun passes through each constellation. But they don’t, much of the time, because astrology and astronomy are different systems. Plus, a closer examination of the motion of the Earth, the sun, and the stars, shows the zodiac to be more intricate than you might imagine!
Moon lovers! Order this year’s EarthSky lunar calendar here
The sun’s motion through the constellations
As Earth orbits the sun, the sun appears to pass in front of different constellations. Much like the moon appears in a slightly different place in the sky each night, the location of the sun relative to distant background stars drifts in an easterly direction from day to day. It’s not that the sun is actually moving. Its motion is entirely an illusion, caused by Earth’s own motion around our star.
Over the course of a year, the sun appears to be in front of, or “in”, different constellations. One month, the sun appears in Gemini; the next month, in Cancer. The dates listed in the newspaper’s horoscope identify when the sun appears in a particular astrological sign. For example, the time between March 21 and April 19, is set aside for the sign Aries. But your astrological sign doesn’t necessarily tell you what constellation the sun was in on the day you were born.
If only it was that simple!
Why the zodiac constellations don’t always align with astrological signs
To understand why constellations no longer align with their corresponding signs, we need to know a little bit more about how the Earth moves. We also need to talk about how we measure time.
Time is a fiendishly difficult thing to define, especially if we insist on using the sun and stars as a reference. Our calendar is, for better or worse, tied to the seasons. June 21 – the approximate date of summer solstice north of the equator and the winter solstice to the south – marks the day the sun appears at its most northerly point in the sky. At the June solstice, the North Pole is most tilted towards the sun.
What makes this complicated is that the North Pole is not always pointing in the same direction relative to the background stars. Our planet spins like a top. Like a top, the Earth also wobbles! A wobbling Earth makes the North Pole trace out a circle on the celestial sphere. The wobble is quite slow; it takes 26,000 years to go around once. But, as the years go by, the effect accumulates.
Over the course of one orbit around the sun, the direction of the Earth’s axis drifts ever so slightly. This means that the place along our orbit where the solstice occurs also changes by a very small amount. The solstice actually occurs about 20 minutes earlier than one full trip in front of the background stars!
Our drifting calendars
Since we tie our calendar (and astrologers tie the signs) to the solstices and equinoxes, the Earth doesn’t actually complete an entire orbit in one year. The seasonal or tropical year is actually a hair less time than one full orbit (sidereal year). This means that, each year, the sun’s location relative to the stars on any given day – June 21, for example – drifts a very tiny amount.
But wait about 2,000 years, and the sun will sit in an entirely different constellation!
On the June solstice 2,000 years ago, the sun sat almost halfway between Gemini and Cancer. Fourteen years ago, on the June solstice, the sun was sitting between Gemini and Taurus. In the year 4609, the June solstice point will pass out of the constellation Taurus and into the constellation Aries.
The signs aligned, more or less, with their corresponding constellations when people defined the modern Western zodiac about 2,000 years ago. But in the intervening centuries, the slow wobble of the Earth’s axis has caused the solstice and equinox points to shift roughly 30 degrees westward relative to the constellations. At present, signs and constellations are about one calendar month off. In another two thousand years or so, they’ll be about two months off.
Modern constellations and the zodiac
To complicate matters more, the constellations – unlike the astrological signs – are not of equal size and shape. The stars that make up a constellation are not, for the most part, physically related. They’re just based on patterns that our ancestors saw as they gazed skyward and tried to make sense of it all.
In 1930, the International Astronomical Union formalized the constellations as regions of the sky, not just the star patterns within them. With this, they defined the boundaries we use today. These modern constellations are rooted in those the Greek astronomer Ptolemy introduced in the second century CE. He, in turn, borrowed them from ancient Babylonian texts. Different cultures have seen patterns in the sky unique to their history. Many cultures share some constellations (Orion is a notable example), but most don’t.
With the current boundaries, there are actually 13 constellations that lie along the sun’s path. The extra one not listed in any horoscope is Ophiuchus, the Serpent Bearer, which sits between Sagittarius and Scorpius. Whereas the signs remain fixed relative to the solstices and equinoxes, the solstices and equinoxes drift westward relative to the constellations or backdrop stars.
While the zodiac may not be a great predictor of love, fortune, and health, it is a great tool for better understanding the motions of the sun, the Earth, and even the cultures that have come and gone on our little planet. The zodiac signs, derived from the constellations along the sun’s path in the sky, track the orbit and wobble of Earth and remind us of astronomy’s humble roots.
Bottom line: You might associate the word zodiac with astrology, but it has an honored place in astronomy, too. The zodiac is composed of the 12 constellations that lie along the annual path of the sun across the sky.
The post What is the zodiac? first appeared on EarthSky.
from EarthSky https://ift.tt/3qflZ9y
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