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Published byEdmund Golden Modified over 8 years ago
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Stars
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Astronomy The study of space
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How astronomers measure distance 1. Light years– The distance light travels in one year 9.461x 10 12 km
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Measuring distance cont 2. Parsec (pc) – 3.26 light years
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What if we cant tell exact distance?
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Parallax The shift of nearby stars with the motion of the Earth. The closer the star the more it moves in the night sky in a smaller time
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Groups of Stars 1. Constellations– Groups of stars named by ancient people 1. 88 constellations 2. Your location and the time of year determine which constellations can be seen **Circumpolar Constellations rotate around the poles and can always be seen (Little dipper and Southern Cross)
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Groups of stars cont. 2. Clusters– Any group of stars gravitationally bound to each other. Some are constellations some are not
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Groups of stars cont. 3. Binaries– Two stars that rotate around each other (To the eye they look like 1 star)
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What are the different aspects of stars we could look at?
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Properties of Stars Diameter Brightness Energy output Surface temperature ** Mass ** Composition
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Magnitude Apparent Magnitude: How Bright a star appears (doesn’t take distance into account)
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Magnitude Absolute Magnitude– Measures brightness from 10 pc ** Can only be calculated if the distance from Earth is known
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Luminosity The amount of energy from the surface of the star ** The magnitude and distance must be known to calculate ** Measured in watts (Joules/ second)
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Classifying stars Stars get a letter and a number Letters are based on their temperature (spectral type)
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Classifying Stars continued Numbers are based on their absolute magnitude And plotted on the Herzsprung-Russell diagram Temperature vs. Magnitude
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Types of stars Main Sequence Stars– Stars that run a normal pattern in cooling and loosing magnitude
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Types of Stars Red Giants– Large, cool, luminous Stars (Doesn’t fuse hydrogen, fuses larger elements instead)
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Types of Stars White Dwarfs– Small, hot, dim stars (Doesn’t fuse hydrogen)
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Fusion How energy is generated on the surface of stars ** Hydrogen atoms collide and make Helium
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Life Cycle of Stars Formation– All stars begin as a cloud of dust called a Nebula
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Nebulas Clouds of dust that collapse on its self forming a PROSTAR Eventually the prostar will get hot enough to star the fusion process
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The amount of mass determines the life of the star
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Smallest Stars (Red) 1. Nebulas 2. Prostars 3. Main sequence 4. White dwarf 5. Black Dwarf
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Next largest (Yellow) 1. Nebula 2. Prostar 3. Main sequence 4. Red Giant 5. White Dwarf 6. Planetary nebula (will be recycled into a new star)
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White Stars (3x the mass of our sun) 1. Nebula 2. Prostar 3. Red supergiant 4. Neutron Star (will start over into a nebula)
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Blue stars (The largest 9x the size of our sun) 1. Nebula 2. Prostar 3. Red supergiant 4. Black hole
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