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Stars Star field taken with Hubble Space Telescope.

Published byGodfrey Luke Osborne Modified over 8 years ago

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Presentation on theme: "Stars Star field taken with Hubble Space Telescope."— Presentation transcript:

1 Stars Star field taken with Hubble Space Telescope

2 Hertzsprung–Russell diagram

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4 Pleiades

5 Star Massive, luminous ball of plasmaplasma Held together by gravity Shines due to thermonuclear fusion of hydrogen in its corethermonuclear fusion

6 Betelgeuse

7 Spectra of stars Allow astronomers to determine a star’s: Composition Luminosity Velocity Mass

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9 Spectrum of the Sun

10 3 types of spectra

11 1.Continuous- produced by a glowing body 2. Absorption line (dark line)- produced when a cooler gas lies between observer and glowing body – this is the type used to ID stars 3.Emission line (bright line)- emission from a glowing gas, used to study nebulae

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15 Star classification Stars are all made of the same material Spectral differences are due to temperature

16 Coolest stars are red, hottest stars are blue

17 Classification system O B A F G K M O hottest M coolest

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19 H R (Hertzsprung Russell) Diagrams Stars plotted according to: 1.Luminosity (absolute magnitude) – brightest stars at the top 2.Temperature (spectral class) – hotter stars to the left

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21 H R Diagram (cont.) 1.Main sequence – Band from hot (blue) to cool (red) – 90% of stars – e.g. the Sun 2.Giants – Luminous and cool – 10-100x size of the Sun – e.g. Aldebaran in Taurus

22 3.Super Giants – 1000x larger than the Sun – e.g. Betelguese in Orion Antares in Scorpius

23 4.White Dwarfs – Very hot, but low luminosity due to small size – e.g. Sirius B – NO fusion in core, glow due to contraction? Gravitational forces

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26 Binary star http://www.astronomy.ohio- state.edu/~pogge/TeachRes/Movies162/#spbin http://www.astronomy.ohio- state.edu/~pogge/TeachRes/Movies162/#spbin http://www.calvin.edu/~lmolnar/anim/algol.html

27 Albireo (the Cal star)

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29 Stellar Evolution

30 Fusion

31 Carbon-carbon fusion

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33 supernova

34 http://www.pbs.org/wgbh/nova/origins/progra m-3114.html

35 http://www.youtube.com/watch?v=8CtjhWhw2I8

36 Stellar Evolution Stars do not live forever Eventually nuclear fuel runs out and star dies

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38 Stages of Stellar Evolution 1.Pre-main sequence – Stars form in a dense, cool cloud of dust and gas – Gravitational attraction causes it to start to glow – NO fusion yet  Protostar

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46 Once fusion starts the star enters the main sequence

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53 Types of stars http://cas.sdss.org/dr6/en/proj/basic/spectraltypes/ http://cas.sdss.org/dr6/en/proj/advanced/spectraltyp es/

54 http://hubblesite.org/gallery/behind_the_pictures/mea ning_of_color/

55 http://www.windows2universe.org/the_universe/ Stars/magnitude_scale.html

56 Stages of Stellar Evolution (cont.) The Main Sequence – Once fusion starts the star enters the main sequence – The more massive the star the faster this process – Our Sun took about 50 million years to form

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63 Stages of Stellar Evolution (cont.) Main Sequence (cont.) – When the force of gravity balances the pressure force the star becomes a stable main sequence star  Hydrostatic equilibrium

64 Stages of Stellar Evolution (cont.) Main sequence (cont.) – Higher temp  greater luminosity  shorter life span – Our Sun will fuse hydrogen (burn) for about 10 billion years

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68 Stages of Stellar Evolution (cont.) Post-Main sequence – Hydrogen core starts to run out  contraction  heats up  outer shell hydrogen fusion increases  Red Giant Star

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71 Stages of Stellar Evolution (cont.) Low mass stars (e.g. the Sun)  Red Giant Stars High mass stars (e.g. Betelguese)  Super Giant stars

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76 Stages of Stellar Evolution (cont.) Death of a star – 4 solar masses or less Contraction of core  heats up  outer layer expands  ejected into space  Planetary Nebula  core becomes white dwarf

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87 Stages of Stellar Evolution (cont.) Death of a star – More than 4 solar masses Core contraction causes fusion up to iron  rapid contraction of core  rebound and tremendous expansion and shock wave that blows apart star  Supernova

88 Stages of Stellar Evolution (cont.) Supernova Outshines all the other stars in the galaxy combined Nucleosynthesis of elements heavier than iron

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96 Stages of Stellar Evolution (cont.) 5-10 solar mass star  neutron star (a paper clip worth of a neutron star would weigh more than Mt. Everest Emit strong radio waves  Pulsar

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100 Stages of Stellar Evolution (cont.) Stars of 10 solar masses or more may become a black hole Mass is squeezed into a singularity Area that sparates a black hole from the surrounding space is the event horizon

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