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Transcript
Ch. 27 Characteristics of Stars Characteristics of Stars Composition: The chemicals that makeup the star How is composition determined? Spectrometer: A device that seperates light into different wavelength. All chemicals emit different unique wavelengths of light (spectra) Spectra can tell a scientist the elements that are present! From the spectra data of a newly identified star, an astronomer concludes that Hydrogen is present in this star. 1. Explain if the scientist is correct. 2. Is Hydrogen the only element found??? Temperature: Indicated by color spectra Based on this diagram 1. What is the approximate temperature of the sun? 2. Which stars have the highest temperatures? 3. Which have the lowest temperatures? The motion of stars What is your guess for the cause of the stellar motion shown in these photographs? Motion of Stars Apparent Motion: Based on the movement of Earth. Motion of Stars Actual Motion Red: moving away from earth Blue: moving towards earth Distance to the stars Light Years: The distance that light travels in one year. Speed of light is 300,000 km/sec. Light travels about 9.5 trillion km in one year. Fun Fact: Light from the sun takes 8 min. to reach Earth!!! How can distances between Stars be measured? Parallax: Observing stars at different angles and comparing how they move in comparison to each other. Stellar Magnitude Brightness of a star. • Apparent Magnitude • Absolute Magnitude Classification of Stars • Based on Surface Temperatures and absolute magnitude reveals a pattern 27.2 Stellar Evolution The Life of a Star • Scientists have developed theories about the evolution of stars by studying stars in different stages of development. Nebula • A cloud of gas and dust o A nearby force compresses some of the particles o As particles collide, increase in mass, increases gravity o Eventually forming a protostar Main Sequence Star • The protostar temperature increases due to • increased pressure and gravity, When it reaches 10,000,000 C, nuclear fusion will begin, and a STAR is born! • Nuclear Fusion Reactors H + H He + Energy The Life of a main sequence star will diverge based on the Star’s mass What happens when Hydrogen begins to run out??? • • • • All the Hydrogen is fused into Helium The core of the star contracts High temperatures cause the helium atoms to fuse forming Carbon. The combined hydrogen fusion and helium fusion causes the outer shell to expand forming a Giant Star. What happens when helium fusion ends? • No energy source available for fusion. • Star looses its outer gases, core is left, leaving a planetary nebula or white dwarf o As the white dwarf cools and no longer emits energy it becomes a black dwarf. o Novas: Explosions that occur during the process of cooling. Supernovas • Supergiant Stars that run out of helium contract with much higher forces. H + H He He + He Carbon C + C Magnesium Additional fusions form Iron The collapse if the Iron core causes a massive explosion = Super Nova What happens after a Supernova? • The core of the supernova may contract into a small dense area of neutrons = neutron star o Some may emit beams of radiation called pulsars • If the leftovers from the supernova are too massive, they may contract under great force and become a black hole. Gravitational Pull • Determined by mass and distance between objects. Gravitational pull diagram HR Diagram Acivities Warm Up With your partner, share what you remember from class 1. How are stars classified? 2. What did magnitude mean? 27.3 Star Groups • Constellations: Star groups that shift in fixed patterns as viewed from Earth • Galaxies: Large groups of star that are bound by gravitational attractions Earth is a part of the Milky Way Galaxy!!! Types of Galaxies • Spiral galaxies Example: The Milky Way Types of Galaxies • Elliptical galaxies: Nearly spherical or flattened disks Types of Galaxies • Irregular galaxies: Have no particular shape • Star Clusters: Clusters of Stars found within • a galaxy Binary Stars: Pairs of stars that revolve around each other Formation of the Universe • Big Bang Theory: o All matter and energy in the universe was once concentrated in an extremely small volume. o 12 -15 billion years ago, matter and energy was propelled out into space. o Matter began to condense forming galaxies o Galaxies and matter continue to move outward The End!!
