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Universe Eighth Edition

Roger A. Freedman • William J. Kaufmann III. Universe Eighth Edition. CHAPTER 18 The Birth of Stars. Chapter 18 online quiz due Thursday night 11/11. HW.

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Universe Eighth Edition

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  1. Roger A. Freedman • William J. Kaufmann III Universe Eighth Edition CHAPTER 18 The Birth of Stars

  2. Chapter 18 online quiz due Thursday night 11/11 HW

  3. Main-sequence stars have masses greater than about 0.08 solar masses. The reason for this is that gas clouds smaller than 0.08 solar masses • do not develop the necessary high temperature and pressure required for nuclear fusion when they collapse. • are too small to begin to collapse. • generate enough energy that they fragment into smaller mass objects when they collapse. • become white dwarf stars. • do not exist as far as we know. Q18.9

  4. Main-sequence stars have masses greater than about 0.08 solar masses. The reason for this is that gas clouds smaller than 0.08 solar masses • do not develop the necessary high temperature and pressure required for nuclear fusion when they collapse. • are too small to begin to collapse. • generate enough energy that they fragment into smaller mass objects when they collapse. • become white dwarf stars. • do not exist as far as we know. A18.9

  5. Key Ideas • Stellar Evolution: Because stars shine by thermonuclear reactions, they have a finite life span. The theory of stellar evolution describes how stars form and change during that life span. • The Interstellar Medium: Interstellar gas and dust, which make up the interstellar medium, are concentrated in the disk of the Galaxy. Clouds within the interstellar medium are called nebulae.

  6. Key Ideas • Dark nebulae are so dense that they are opaque. They appear as dark blots against a background of distant stars. • Emission nebulae, or H II regions, are glowing, ionized clouds of gas. Emission nebulae are powered by ultraviolet light that they absorb from nearby hot stars. • Reflection nebulae are produced when starlight is reflected from dust grains in the interstellar medium, producing a characteristic bluish glow.

  7. Key Ideas • Protostars: Star formation begins in dense, cold nebulae, where gravitational attraction causes a clump of material to condense into a protostar. • As a protostar grows by the gravitational accretion of gases, Kelvin-Helmholtz contraction causes it to heat and begin glowing. Its relatively low temperature and high luminosity place it in the upper-right region on an H-R diagram. • Further evolution of a protostar causes it to move toward the main sequence on the H-R diagram. When its core temperatures become high enough to ignite steady hydrogen burning, it becomes a main-sequence star. • The more massive the protostar, the more rapidly it evolves.

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