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Section 29.2 Measuring the Stars Objectives Determine how distances between stars are measured. Distinguish between brightness and luminosity. Identify the properties used to classify stars. Section 29.2 Measuring the Stars Stellar classification is based on measurement of light spectra, temperature, and composition. Review Vocabulary wavelength: the distance from one point on a wave to the next corresponding point Section 29.2 Measuring the Stars New Vocabulary constellation absolute magnitude binary star luminosity parsec parallax Hertzsprung-Russell diagram apparent magnitude main sequence Section 29.2 Measuring the Stars Groups of Stars Long ago, many civilizations looked at the brightest stars and named groups of them after animals, mythological characters, or everyday objects. These groups of stars are called constellations. Today, astronomers group stars by the 88 constellations named by ancient peoples. Section 29.2 Measuring the Stars Groups of Stars Some constellations are visible throughout the year, depending on the observer’s location. Constellations that appear to rotate around one of the poles are called circumpolar constellations. Ursa Major, also known as the Big Dipper, is a circumpolar constellation for the northern hemisphere. Section 29.2 Measuring the Stars Groups of Stars Unlike circumpolar constellations, the other constellations can be seen only at certain times of the year because of Earth’s changing position in its orbit around the Sun. Section 29.2 Measuring the Stars Groups of Stars The most familiar constellations are the ones that are part of the zodiac. These twelve constellations can be seen in both the northern and southern hemispheres. Section 29.2 Measuring the Stars Groups of Stars Star clusters By measuring distances to stars and observing how their gravities interact with each other, scientists can determine which stars are gravitationally bound to each other. A group of stars that are gravitationally bound to each other is called a cluster. Section 29.2 Measuring the Stars Groups of Stars Star clusters An open cluster is a group of stars that are not densely packed. A globular cluster is a group of stars that are densely packed into a spherical shape. Section 29.2 Measuring the Stars Groups of Stars Binaries When only two stars are gravitationally bound together and orbit a common center of mass, they are called binary stars. More than half of the stars in the sky are either binary stars or members of multiple-star systems. Section 29.2 Measuring the Stars Groups of Stars Binaries Most binary stars appear to be single stars to the human eye, even with a telescope. The two stars are usually too close together to appear separately, and one of the two is often much brighter than the other. Section 29.2 Measuring the Stars Visualizing Star Groupings When you look into the night sky, the stars seem to be randomly spaced from horizon to horizon. Upon closer inspection, you begin to see groups of stars that seem to cluster in one area. Section 29.2 Measuring the Stars Groups of Stars Doppler shifts The most common way to tell that a star is one of a binary pair is to find subtle wavelength shifts, called Doppler shifts. Scientists use Doppler shifts to determine the speed and direction of a star’s motion. Section 29.2 Measuring the Stars Groups of Stars Doppler shifts When a star moves toward the observer, the light emitted by the star shifts toward the blue end of the electromagnetic spectrum. When a star moves away from the observer, its light shifts toward the red. Section 29.2 Measuring the Stars Stellar Positions and Distances Astronomers use two units of measure for long distances. One is the light-year (ly). A light-year is the distance that light travels in one year, equal to 9.461 × 1012 km. —a parsec (pc), which is equal to 3.26 ly, or 3.086 × 1013 km. 1AU = 150 million kms. Section 29.2 Measuring the Stars Stellar Positions and Distances Parallax When estimating the distance of stars from Earth, astronomers must account for the fact that nearby stars shift in position as observed from Earth. This apparent shift in position caused by the motion of the observer is called parallax. Section 29.2 Measuring the Stars Stellar Positions and Distances Parallax The distance to a star can be estimated from its parallax shift by measuring the angle of the change. With advancements in technology, such as the Hipparcos satellite, astronomers can find accurate distances up to 500 pc by using the parallax technique. Section 29.2 Measuring the Stars Basic Properties of Stars The basic properties of a star are mass, diameter, luminosity, and temperature. Temperature is estimated by finding the spectral type of a star. Section 29.2 Measuring the Stars Basic Properties of Stars Temperature controls the nuclear reaction rate and governs the luminosity, or apparent magnitude, which is how bright the stars and planets appear in the sky from Earth. Section 29.2 Measuring the Stars Basic Properties of Stars Magnitude Absolute magnitude is how bright a star would appear if it were placed at a distance of 10 pc. The absolute magnitude compared to the apparent magnitude is used to find the distance to a star. Section 29.2 Measuring the Stars Basic Properties of Stars Magnitude The classification of stars by absolute magnitude allows comparisons that are based on how bright the stars would appear at equal distances from an observer. The disadvantage of absolute magnitude is that it can be calculated only when the actual distance to a star is known. Section 29.2 Measuring the Stars Basic Properties of Stars Magnitude Apparent magnitudes do not give an actual measure of energy output. To measure the energy output from the surface of a star per second, called its power or luminosity, an astronomer must know both the star’s apparent magnitude and how far away it is. Section 29.2 Measuring the Stars Basic Properties of Stars Magnitude Luminosity is measured in units of energy emitted per second, or watts. The Sun’s luminosity is about 3.85 × 1026 W. The values for other stars vary widely, from about 0.0001 to more than 1 million times the Sun’s luminosity. No other stellar property varies as much. Section 29.2 Measuring the Stars Classification of Stars Temperature Stars are assigned spectral types in the following order: O, B, A, F, G, K, and M. Each class is subdivided into more specific divisions with numbers from 0 to 9. Section 29.2 Measuring the Stars Classification of Stars Temperature The classes were originally based only on the pattern of spectral lines, but astronomers later discovered that the classes also correspond to stellar temperatures, with the O stars being the hottest and the M stars being the coolest. Thus, by examination of a star’s spectra, it is possible to estimate its temperature. Section 29.2 Measuring the Stars Classification of Stars Temperature Temperature is also related to luminosity and absolute magnitude. Hotter stars put out more light than stars with lower temperatures. Because the temperature of a star is not affected by its distance, by measuring the temperature and luminosity, distance is known. Section 29.2 Measuring the Stars Classification of Stars Composition All stars, including the Sun, have nearly identical compositions, despite differences in their spectra. The differences in the appearance of their spectra are almost entirely a result of temperature differences. Section 29.2 Measuring the Stars Classification of Stars Composition Typically, about 73 percent of a star’s mass is hydrogen, about 25 percent is helium, and the remaining 2 percent is composed of all the other elements. Section 29.2 Measuring the Stars Classification of Stars H-R diagrams A Hertzsprung-Russell diagram (H-R diagram) is a graph that relates stellar characteristics— class, mass, temperature, magnitude, diameter, and luminosity. Absolute magnitude is plotted on the vertical axis and temperature or spectral type is plotted on the horizontal axis. Section 29.2 Measuring the Stars Please click the image above to view the interactive table. Section 29.2 Measuring the Stars Classification of Stars H-R diagrams Most stars occupy the region in the diagram called the main sequence, which runs diagonally from the upper-left corner, where hot, luminous stars are represented, to the lower-right corner, where cool, dim stars are represented. Section 29.2 Measuring the Stars Please click the image above to view the interactive table. Section 29.2 Measuring the Stars Classification of Stars Main sequence While stars are in the main sequence, they are fusing hydrogen in their cores. As stars evolve off the main sequence, they begin to fuse helium in their cores and burn hydrogen around the core edges. Section 29.2 Measuring the Stars Classification of Stars Main sequence A star’s mass determines almost all its other properties, including its main-sequence lifetime. The more massive a star is, the higher its central temperature and the more rapidly it burns its hydrogen fuel. Section 29.2 Measuring the Stars Classification of Stars Main sequence Red giants are large, cool, luminous stars. They are so large—more than 100 times the size of the Sun in some cases—that Earth would be swallowed up if the Sun were to become a red giant. Section 29.2 Measuring the Stars Classification of Stars Main sequence Small, dim, hot stars are called white dwarfs. A white dwarf is about the size of Earth but has a mass about as large as the Sun’s. CH Study Guide Key Concepts Section 29.2 Measuring the Stars Stellar classification is based on measurement of light spectra, temperature, and composition. Stars exist in clusters held together by their gravity. The simplest cluster is a binary. CH Study Guide Key Concepts Section 29.2 Measuring the Stars Parallax is used to measure distances to stars. The brightness of stars is related to their temperature. Stars are classified by their spectra. The H-R diagram relates the basic properties of stars: class, temperature, and luminosity. CH Stars 29.2 Section Questions Most stars are part of multiple-star systems. a. true b. false CH Stars 29.2 Section Questions What type of binary star system is discovered by observing Doppler shifts? a. eclipsing b. spectroscopic c. open cluster d. globular cluster CH Stars 29.2 Section Questions What does the number of lines on a star’s spectra indicate? a. distance b. age c. temperature d. magnitude