Fortune Telling Collection - Zodiac Guide - What stars does Libra consist of? What stars are Taurus made of? What stars are Leo made of? Book II of Grade Five, Math Summer Homework, People's Education Edition, page P69.

What stars does Libra consist of? What stars are Taurus made of? What stars are Leo made of? Book II of Grade Five, Math Summer Homework, People's Education Edition, page P69.

Libra time: September 23rd ~ 65438+1October 23rd Ruling planet: Venus Attribute: air signs.

Guardian Goddess: Aphrodite, goddess of love and beauty/Simis, goddess of justice/Astria.

Tiān chèng Zuo, from September 23rd to June 23rd, 5438+10/October 23rd, the seventh house of the zodiac, sometimes translated as Libra, is located in the southeast of Virgo and belongs to the zodiac. The four brightest 3m stars α, β, γ and σ in the constellation form a quadrilateral, and the β star and the spring triangle form a big diamond, so you can find this constellation.

In the ancient Greek constellation system, Libra was a part of Scorpio. Later, the ancient Romans observed that the autumnal equinox was near a bright star, so they separated this area from Scorpio and named it after the fair scale of the goddess of justice, Astra (Virgo). That bright star became the alpha star of Libra.

libra

It should be noted that due to precession, today's vernal equinox is no longer in Libra in the starry sky, but it still belongs to Libra Palace, commonly known as Libra.

Taurus planet composition:

Taurus is a constellation that appears in the south of the sky on winter nights. The symbol of Taurus symbolizes the bull head. Its guardian star is Venus and its patron saint is Venus, the goddess of love and beauty. In the sky not far from the northwest of Orion, there is a very bright 0.86m star (the first 13 of all the stars), which is the alpha star of Taurus, which was called Bisu V in ancient China.

Taurus is also one of the famous zodiac signs, and Bi Suwu is located near the zodiac. It is about 90 degrees away from the four bright stars near the ecliptic, such as Xuanyuan XIV of Leo, Antares of Scorpio and Beiluoshimen of Nanyu. They are called the "four heavenly kings" of the zodiac.

An irregular variable star, whose spectral type is G ~ M and the typical star is Taurus T, was first discovered by Joey in 1945. Taurus T-variables are closely related to diffuse nebulae, which appear in groups and often constitute the main members of the T-variables Association. It is estimated that there are about12,000 T-deformed stars in the parsec around the sun, and the total number in the whole galaxy is10,000,000. This kind of variable stars all have aperiodic irregular light changes, or fast light changes are superimposed on long-term slow light changes. The maximum amplitude is 5 magnitude, generally 1 ~ 2 magnitude. In recent years, it has also been found that there is light variation in infrared band. Their spectra are superimposed on a night photosphere with a series of emission lines. The strongest emission lines are Balmer line, H line and K line of calcium ion Ca Ⅱ. Emission lines such as ionized iron Fe ⅱ, ionized titanium Ti ⅱ, neutral iron Fe ⅰ and neutral calcium Ca ⅰ and low excitation metal atomic lines often appear. There are overlapping continuous emission spectral regions in the blue-violet region. In some cases, this continuous emission is so intense that the absorption spectrum of the photosphere is completely submerged. In the high dispersion spectra of some bright T stars in Taurus, most absorption lines are broadened. It means that their speed is very high. There are quite a few Taurus T stars in Cygnus with P-shaped starlight bricks, that is, the absorption line appears at the short-wave end of the strong emission line profile, which indicates that they throw matter outward. The mass loss rate is estimated as 10 ~ 10 solar mass per year. A few T-stars in Taurus have the spectrum of anti-Cygnus P-stars, which indicates that there is the phenomenon of matter falling inward. The polarization of some T stars in Taurus is as high as 12%. The lithium abundance of T star in Taurus is about two orders of magnitude higher than that in the solar atmosphere, and there is infrared color residue. Radio emission of T star in Taurus was measured. At present, T star in Taurus is a kind of preorder star in gravitational contraction stage.

At first, American astronomer Joy called 1 1 variable star a variable star with mixed emission lines in the 1945 nebula "Taurus T variable star". By 1962, a brighter 126 Taurus T variable has been found. These variable stars are usually shrouded in diffuse nebulae, with low surface temperature and mostly of late spectral type. Except for a few, the luminosity changes irregularly, and the light changes regularly from a few tenths of stars to a few stars, often accompanied by Hα emission line and H K line of calcium ions. Spectral analysis shows that the T-variable star in Taurus has the phenomenon of material outflow, and the eruption speed varies from 225 km to 425 km per second, and it changes with time.

In the H-R diagram, the T-shaped variable stars of Taurus are distributed in the upper right of the main sequence belt and located in the orbit of Hayashi, indicating that they are very young stars.

Taurus constellation

The late spectral star before the main sequence star belongs to the pre-main sequence star. According to the intensity of the emission line in the spectrum, it can be divided into two types: strong Taurus T-variable and weak Taurus T-variable. The former is more active than the latter. The typical T-variable star in Taurus emits a strong star wind, which is considered to be caused by the accretion of substances around the disk towards the center, and is the downward flowing residue in the process of star formation. In contrast, the weak Taurus T variable star lacks strong stellar wind and accretion disk, which may be the result of the diffusion of the surrounding astrolabe in the late evolution of the strong Taurus T variable star.

In principle, the diffuse nebula mixed with many young stars is the most suitable for observing Taurus T variables. But in fact, these star-forming regions are far away from the sun and 150 parsec (pc), so it is difficult to observe subtle changes in luminosity. The luminosity of T variable in Taurus shows some characteristic changes, many of which are periodic luminosity changes. These periodic luminosity changes are believed to be the result of the rotation of the star surface with spots, which can be cold (like sunspots) or hot (like spots in the sun's chromosphere). By comparing the sun with other active stars (such as RSCVn and BYDRa), we can estimate the latitude, size and shape of low temperature spots and how they change with time by analyzing the type, amplitude and period of photometric curves of T variable stars in Taurus. Taking the Taurus V4 10 star (V4 10Tau) as an example, based on the photometric observation data of five times in six years, it is deduced that its rotation period is 1.87 10 days, and the appearance and amplitude of its photometric change are in line with the changes of the size, temperature and distribution of the star spot expected by the model. The rotation period of the star before the main sequence star is an important parameter, which can only be inferred by photometric observation, so it is necessary to make long-term photometric observation of the T variable star in Taurus.

The rotation of T variable stars in Taurus is studied systematically, and the rotation speed of more than T variable stars in Taurus 100 is measured. Because Zhou Xiao's rotation speed is 20km per second, which reflects the mass of most T-variables in Taurus, Zhou Xiao is 1.25 solar masses. In the star before the main sequence star, the observation results show that the rotation speed increases with the increase of mass, which may be the result of the star formation process.

Le Signe du Lion

Leo: Leo in astronomy and Leo in astrology.

Astronomy: The beta star of Leo was found in the spring night through the Spring Triangle, that is, after the Five Emperors sat down, a big star to the east of it was all Leo. In Leo, delta, theta and beta stars form a remarkable triangle, which is the lion's back and tail. These six stars from ε to α form the shape of a sickle, which is also like a reverse question mark. This is the lion's head. When the Polaris connecting the constellation Ursa major (that is, the two stars in the spoon mouth) extends in the opposite direction to Polaris, you can find it. China, alpha star, is called Xuanyuan XIV, and its apparent magnitude is1.35m. It is located in the center of Leo, which is also a point of the question mark written later. It is the brightest star in Leo and the 2nd1brightest star in the whole day.

Astrology: Leo people love communication, value friends, have generous personality, strong leadership and inspiring temperament. They are often the focus of the group, with perseverance and look like kings.

Leo's Satoshi (beta star), Capricorn's arcturus and Virgo's constellations form the famous "Spring Triangle" in the spring sky.

In the spring night, we found the beta star of Leo through the spring triangle, that is, after the five emperors sat down, a big star to the east of it was all Leo's. In Leo, delta, theta and beta stars form a remarkable triangle, which is the lion's back and tail. These six stars from ε to α form the shape of a sickle, which is also like a reverse question mark. This is the lion's head. When the Polaris connecting the constellation Ursa major (that is, the two stars in the spoon mouth) extends in the opposite direction to Polaris, you can find it. Alpha is called Xuanyuan XIV in China, and its apparent magnitude is1.35m. It is located in the center of Leo, which is also a point of the question mark written later. It is the brightest star in Leo and the 2nd1brightest star in the whole day. It forms an isosceles triangle with arcturus and arcturus, and can be found by extending the δ and γ stars of Ursa Major ten times. In ancient times, navigators often used it to determine the position of ships in the sea, so Alpha Leo was awarded the title of "one of the nine navigation planets".

Leo's Xuanyuan XIV is located near the ecliptic, which is about 90 degrees away from the four bright stars Taurus, Scorpio Antares and Nanyu's Beiluoshimen. They are called the "four heavenly kings" of the zodiac.

Every year in June165438+1mid-October, especially in the nights of June 14 and June 15, a large number of meteors will appear near ζ star with question marks written on Leo. This is the famous Leonid meteor shower. It peaks every 33 years. As early as 93 1 year, it was recorded in China during the Five Dynasties. At the peak of 1833, there are tens of thousands of them every hour. Therefore, the next night, a farmer hurried outside to see if all the stars in the sky had fallen out.

Leonid meteor shower was still flourishing in 1866, but it was much less in 1899, and only a few were seen in 1932 and 1965. By 1998 and 1999, the Leonid meteor shower was magnificent again and reached its peak.