Star Formation (Compare: Solar System Formation) - PowerPoint PPT Presentation

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Star Formation (Compare: Solar System Formation)

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Title: Integrative Studies 410 Our Place in the Universe Author: DRobertson Last modified by: Windows User Created Date: 3/27/2002 9:47:52 PM Document presentation format – PowerPoint PPT presentation

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Title: Star Formation (Compare: Solar System Formation)


1
Star Formation(Compare Solar System Formation)
2
Where Stars come from the Interstellar Medium
  • Gas
  • Single atoms and molecules
  • Mostly hydrogen (90), 9 helium deficient in
    heavier elements
  • Dust
  • Microscopic clumps of atoms/molecules
  • Size 10?7 m, similar to the wavelength of
    visible light
  • Composition is not well known
  • Temperature depends on the proximity of stars,
    typically 100 K
  • Density is very low!
  • Gas about 1 atom/cm3 D Dust even less
    dense

3
How do we know its there?
  • Cold gas or dust doesnt glow
  • they are dark
  • We might see them blocking light of other
    objects (Dark Nebulae)
  • Gas Dust clouds are very dilute
  • they might not be blocking other objects light
    totally
  • Usually they will reduce (redden) the light of
    other objects

4
Reminder Kirchhoffs Laws
  • Cool gas absorbs light at specific frequencies
  • ? Dark Lines fingerprints of the elements

5
Looking Through Dust Clouds
6
Seeing Through Gas and Dust
  • EM radiation is appreciably scattered or absorbed
    only by particles with size comparable to its
    wavelength (or larger)
  • Gas
  • Emission and absorption lines
  • Doesnt block EM radiation
  • Dust
  • Grain size is comparable to the wavelength of
    visible light
  • Dims visible light and high frequency EM
    radiation
  • Transparent to longer wavelength radio and
    infrared radiation, though

7
Scattering in Earths Atmosphere
8
The Interstellar Medium
  • Dust dims and reddens the light from distant stars

9
Dust Clouds
  • What happens to the blue light scattered by the
    dust clouds?
  • Its still there, and sometimes can be seen

10
Nebulae
  • Any irregularly shaped cloud of gas and dust
  • May be bright or dark, depending on temperature
  • Types
  • Emission (bright) Nebulae
  • Dark Nebulae
  • Reflection Nebulae
  • Historic Remark Only some of the 109 nebulae
    catalogued by Charles Messier in 18th Century are
    actual nebulae most are star clusters and
    galaxies

11
Dark Nebulae
  • Classic Example Horsehead Nebula in Orion

Cant see whats behind a dark nebula, thats why
we see it!
12
Dark Nebulae
  • Dark Nebulae do emit light of their own, though
  • Temperatures 10 to 100 K black body radiation
    peaks in the radio to infrared frequencies

fpeak in infrared frequencies
13
Dark Nebulae
  • Now you see it ? Now you dont
  • (infrared frequencies) (visible
    frequencies)

Rho Ophiuchi (infrared)
Rho Ophiuchi (visible light)
14
Emission Nebulae
  • Regions of hot glowing gas
  • Temperatures 8000K
  • Made to glow by ultraviolet radiation emitted by
    new O- or B-type (hot) stars located inside
  • Emission lines from the nebula are easily
    distinguished from the continuous spectrum and
    absorption lines of stars within
  • Color predominantly red, the color of a
    particular hydrogen emission line (the H? line)

15
Emission Nebulae
  • Example Orion Nebula (M 42)
  • hot glowing gas
  • Temperatures 8000K
  • Made to glow by
  • ultraviolet radiation
  • emitted by young
  • O- or B-type (hot)
  • stars located inside
  • Color predominantly
  • red, the color of a
  • particular hydrogen
  • emission line (H?)
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