The 7 Types Of Stars (and Their Characteristics)

Stars are luminous spheroids of plasma that maintain their shape due to their own gravity. These shine thanks to the thermonuclear fusion of hydrogen into helium, since the reaction releases a huge amount of energy that radiates into outer space.

In other words, stars are engines of cosmic energy that produce heat, ultraviolet rays, X-rays and other forms of radiation.

When we look up at the sky far from an urban center, an overwhelming feeling of insignificance invades us: From Earth, a human being can observe about 3,000 different stars , but it is estimated that in each galaxy there could be about 100,000 million stellar bodies, in turn multiplied by the 100,000 million galaxies that could exist. These figures are incomprehensible to human beings, but they make it more than clear to us how ephemeral the existence of the individual is on the largest scales.

When we talk about stars, we usually focus our attention on the constellations, the physical limitations of the celestial vault. Our species tends to organize everything around it, and that is why we find meaning in creating shapes, patterns and maps from concepts that are practically inconceivable from a physical point of view. With the intention of breaking the classification by constellations a little, today we expose you the types of stars, but based on their temperature, mass and spectrum

    What are the types of stars?

    From a purely informative point of view, a star can be defined as a star or celestial body that shines with its own light in the sky. In other words, it is about each of the celestial bodies that are identified at night when you look up, excluding only the moon, since it does not generate light (but reflects solar light).

    We could talk about protostars, T Tauri stars, red giant stars and many more varieties, but we find it interesting to stick to a specific classification and continue with it, from beginning to end. Therefore, to show you the 7 types of stars we have chosen the harvard classification system This criterion is based on the spectrum of each stellar body, or in other words, the elements that the atoms that compose it absorb. Go for it.

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    1. Class 0

    This class encompasses type 0 or 0-type stars, extremely bright and with radiation emitted in the ultraviolet range If they are observed in a sequential order with respect to the rest, they are the “largest” of all, with a bluish-white tone. Some of the largest massive stars are included in this category.

    These stars have temperatures that exceed 30,000 degrees Kelvin, a figure inconceivable for the average human being. In any case, it should be noted that the heat emitted by these bodies is measured by the “effective temperature”, or what is the same, the temperature of a black body that would emit the same total amount of electromagnetic radiation as that of the element analyzed. It is used to estimate the heat emitted in an entity whose emissivity curve is not known.

    Class 0 stars (and all variants) They are characterized by the relative strength of certain spectral lines, which are the result of an excess or lack of photons in a narrow range of frequencies (compared to nearby frequencies). On this occasion, the defining spectral lines are HeII, prominent at 454.1 nm and 420.0 nm.

    class 0 star

    In summary, and to keep the space as informative as possible, class 0 stars are very large, very hot and with bluish tones. Don’t worry, because once all these terms are established, we will go faster in the following variants.

      2. Class B

      Like class 0 stars, they are very bright and blue stars. They are smaller than the first ones, but still They house 2 to 16 times more mass than the Sun and also reach 10,000 to 30,000 degrees Kelvin Due to their high energetic activity and reactivity, B-class stars live a relatively short period of time.

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      These stars are defined by He I type spectral lines, in the violet spectrum. There are 9 subdivisions within this class, and the intensity of the hydrogen lines increases constantly in all of them. Again, we maintain the informative spirit by saying that they are smaller than class 0, with a blue chromaticity, but still of immeasurable size and with extremely high energy activity.

      B class star

      3. Class A

      These stars They are some of the most common at first glance , that is, those we observe when we look at the sky. Approximately 0.625% (1 in 160) of “normal” stars in the solar system are of this type. Its temperature ranges between 7,500 and 10,000 degrees Kelvin, its mass is 1.4 to 2.1 times that of the sun and its chromaticity is white.

      The spectrum of these stellar bodies is defined by strong Balmer lines , the set of lines that result from the emission of the hydrogen atom when an electron transits between levels. The hydrogen lines in this type of stellar body, therefore, are very high.

      Class A star

      4. Class F

      In this group, the so-called H and K lines of calcium stand out , in addition to the characteristic lines of hydrogen, in this case weaker. The effective temperature of these stellar bodies ranges between 6,000 and 7,500 degrees Kelvin, their chromaticity is white-yellowish and the mass is relatively similar to that of the Sun (1.04 to 1.4 solar masses).

      F class star

      5. G-Class

      Included here is the star that gives us life, the one that allows you to read these words and allow life to exist: the Sun

      Solar type or G class stars are also the most common, representing 1 in 13 (7.5%) of those observable in the solar system. Its effective temperature is 5,200 to 6,000 degrees Kelvin, the chromaticity is yellow (like the Sun itself) and the mass is 0.8 to 1.04 solar masses.

      Sun

      6. Class K

      From now on, we enter the categories of stars “colder” than the Sun , although they are in magnitudes that remain inconceivable for human beings. Their mass is 0.45 to 0.8 times that of the sun, the chromaticity is pale orange and the temperature of these celestial bodies ranges from 3,700 degrees Kelvin to 5,200 K. In these stars, the hydrogen lines are extremely weak, if present at all. They represent 12.1% of the stars used in our system.

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      K-class star

      7. M-Class

      Stars with very low hydrogen lines (like those of the K class), but which represent 75% of the stars that make up the solar system. Curiously, They produce “so little light” that they are invisible to the human eye, unless special devices are used Its temperature is 2,400 to 3,700 degrees Kelvin, the chromaticity is orange-red and the total mass corresponds to 0.08-0.45 solar masses.

      M class star

      In this group are the stars known as “red dwarfs”, “red giants” and “red supergiants”. They all share the following points: their mass and diameter values ​​are less than half those of the Sun and the temperature does not increase beyond 4,000 degrees Kelvin.

      Summary

      This complex journey through the stellar world tells us one thing very clearly: the classification of stars goes far beyond giants, small and protostars. With this range based on spectrum, mass and temperature, all celestial bodies can be encompassed, without the need to resort to extremely complex terminology, reserved only for a few astrophysicists.

      Furthermore, we have relied on the Balmer lines (of hydrogen) to quantify the “visibility” of a star and its typology, but it is also worth noting that there are others, such as the H and K lines of calcium, sodium lines and others. Of course, the world of astronomy reports an enormous amount of information, as interesting as it is difficult to understand.