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Properties of Stars

Properties of Stars. Chapter 30. Analyzing Starlight. Star- a large celestial body that is composed of gas and that emits light Nuclear fusion is the combination of light atomic nuclei to form heavier atomic nuclei Astronomers learn about stars by analyzing the light that the stars emit

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Properties of Stars

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  1. Properties of Stars

  2. Chapter 30 Analyzing Starlight Star-a large celestial body that is composed of gas and that emits light • Nuclear fusion is the combination of light atomic nuclei to form heavier atomic nuclei • Astronomers learn about stars by analyzing the light that the stars emit • Starlight passing through a spectrograph produces a display of colors and lines called a spectrum

  3. Chapter 30 Analyzing Starlight • All stars have dark-line spectra, which are bands of color crossed by dark lines where the color is diminished • A star’s dark-line spectrum reveals the star’s composition and temperature • Stars are made up of different elements in the form of gases • Because different elements absorb different wavelengths of light, scientists can determine the elements that make up a star by studying its spectrum

  4. Chapter 30 The Compositions of Stars • Scientists have learned that stars are made up of the same elements that compose Earth • The most common element in stars is hydrogen • Helium is the second most common element in star • Small quantities of carbon, oxygen, and nitrogen are also found in stars

  5. Chapter 30 The Temperatures of Stars • The temperature of most stars ranges from 2,800˚C to 24,000˚C. • Blue stars have average surface temperatures of 35,000˚C. • Yellow stars, such as the sun, have surface temperatures of about 5,500˚C. • Red stars have average surface temperatures of 3,000˚C.

  6. Chapter 30 The Sizes and Masses of Stars • Stars vary in size and mass • Stars such as the sun are considered medium-sized stars • The sun has a diameter of 1,390,000 km • Most stars visible from Earth are medium-sized stars • Many stars also have about the same mass as the sun, however some stars may be more or less massive

  7. THE HERTZSPRUNG-RUSSELL DIAGRAM • In the early 20th century E. Hertzsprung (Danish) and H.N. Russell (American) independently came up with an extremely useful way to categorize stars. • They plotted their COLORS (blue to red using Spectral Classes) or TEMPERATURES (T) on the X-axis and they plotted their absolute MAGNITUDES or LUMINOSITIES on the Y-axis. • These H-R diagrams are therefore sometimes called Color-Magnitude diagrams.

  8. Chapter 30 Classifying Stars • Main sequence the location on the H-R diagram where most stars lie • It has a diagonal pattern from the lower right to the upper left • One way scientists classify stars is by plotting the surface temperatures of stars against their luminosity • The H-R diagram is the graph that illustrates the resulting pattern • Astronomers use the H-R diagram to describe the life cycles of stars • Most stars fall within a band that runs diagonally through the middle of the H-R diagram • These stars are main sequence stars.

  9. Chapter 30 Classifying Stars

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