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Characteristics of STars
Unit 2, Lesson 3
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Star Classification Astronomers classify stars according to their physical characteristics. Characteristics used to classify stars include color, temperature, size, composition, and brightness. Stars vary in their chemical composition. Astronomers use spectrographs to determine the elements found in stars. A spectrograph is a device that breaks light into colors and produces an image of the resulting spectrum.
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Brightness The brightness of a star depends upon both its size and its temperature. How bright a star looks from Earth depends on both its distance from Earth and how bright the star actually is. The brightness of a star can be described in two different ways: apparent brightness and absolute brightness.
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Brightness Apparent brightness is its brightness as seen from Earth.
Astronomers can measure apparent brightness fairly easily using electronic devices. Absolute brightness is the brightness the star would have if it were at a standard distance from Earth.
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Distances in SPace Distances on Earth’s surface are often measured in kilometers. However, distances to the stars are so large that kilometers are not very practical units. Astronomers use a unit called the light-year to measure distances between the stars. A light-year is the distance that light travels in one year, about 9.5 million million kilometers.
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Parallax Standing on Earth looking up at the sky, it may seem as if there is no way to tell how far away the stars are. However, astronomers have found ways to measure those distances. Astronomers often use parallax to measure distances to nearby stars. Parallax is the apparent change in position of an object when you look at it from different places.
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H-R Diagram Two important characteristics of stars are temperature and absolute brightness. Ejnar Hertzsprung and Henry Norris-Russell made a graph to find out whether these characteristics are related. The graph they made is called the Hertzsprung- Russell diagram, or H-R diagram. Astronomers use the H- R diagram to classify stars and to understand how stars change over time.
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Main Sequence Most of the stars in the H-R diagram form a diagonal line called the main sequence. More than 90 percent of all stars, including the sun, are main- sequence stars. In the main sequence, surface temperature increases as brightness increases.
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Constellations When ancient observers around the world looked up at the night sky, they imagined that groups of stars formed pictures of people or animals. Today, we call these imaginary patterns of stars constellations.
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I. Constellations 88 recognized by International Astronomy Union
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A. Zodiac Band of 12 constellations along the ecliptic.
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ZODIAC
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C. Circumpolar Constellations
Can be seen all year long Never fully set below the horizon Appear to move counter clockwise around Polaris Caused by Earth’s rotation
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Examples of Circumpolar Constellations
Ursa Major – The Big Bear Ursa Minor – The Little Bear Cassiopeia – Queen on Her Throne Draco- The Dragon Cepheus- The King
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Circumpolar Constellations
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II. Seasonal Constellations
Only visible at certain points in the season. We see a different night sky because of the revolution of the Earth Big Dipper In Fall: Low over northern horizon Spring: High overhead Cassiopeia In Fall: Straight overhead Spring: Low over northern horizon
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