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Why is Light so useful in Astronomy? It can tell us many properties of planets and stars: –How warm / hot they are (Surface temperature) –What they’re.

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Presentation on theme: "Why is Light so useful in Astronomy? It can tell us many properties of planets and stars: –How warm / hot they are (Surface temperature) –What they’re."— Presentation transcript:

1 Why is Light so useful in Astronomy? It can tell us many properties of planets and stars: –How warm / hot they are (Surface temperature) –What they’re made of (Chemical Composition) –How they’re moving (Radial Velocity and Spin) Spectrum of Mars

2 Interaction of Light and Matter: Four Ways 1. emission – matter releases energy (E) as light 2. absorption – matter takes E from light 3. transmission – matter allows light to pass 4. reflection – matter repels light in another direction CONSERVATION OF ENERGY

3 Emission - Continuous Hot, dense objects give off continuous thermal blackbody radiation –Warm objects emit infrared –Hotter  More light Shorter wavelengths e.g. Stars emit visible light! IR Spectrum  We can measure planet’s surface temperature!

4 Reflection: Application When light passes through matter, or reflects off of matter, some wavelengths may be absorbed Resulting spectrum tells us about the matter! –Example: Mars appears red because it’s surface absorbs more blue light than red (reflects more red light than blue)  tells us something about what surface is made of

5 5 Blackbody Activity

6 6 Application to Stars: Thermal Radiation Bluer Stars are hotter than redder ones!

7 Emission & Absorption Photons can be absorbed / emitted by matter: –Photon energy matches “jump” in energy levels http://www.astro.uiuc.edu/projects/data/S pectra/orbitals.htmlhttp://www.astro.uiuc.edu/projects/data/S pectra/orbitals.html Atoms absorb photon & gain energy  Absorption-line spectrum Atoms emit photon & lose energy  Emission-line spectrum

8 Kirchhoff’s Laws: Kinds of Spectra

9 9 Types of Spectra Activity

10 10 Element Identification Fig. 6.8 Each element has a unique signature because of its energy level structure Hydrogen Only photons whose energies (colors) match the “jump” in electron energy levels can be emitted or absorbed.

11 11 Application : Chemical Composition Presence of absorption lines of a particular element indicates the presence of that element in the absorbing material –e.g. atmosphere of a star! Artificial (Absorption-line) Solar Spectrum: Laboratory (Emission-line) Spectrum of Iron:

12 Outer layers of a star are cooler than the dense inner part (i.e. they are the “cool cloud”) Application to Stars: Absorption spectra

13 Tails of Comets consist of dust which reflects sunlight, and excited gas which produces an emission-line spectrum. Application: Emission Spectra From http://www.astron.pref.gunma.jp/gallery/comet_2001Q4.html

14 Application : Chemical Composition Presence of emission lines of a particular element indicates the presence of that element in the excited gas From: http://www.pbs.org/wgbh/nova/origins/spectra.html

15 The Doppler Effect How is light affected by the velocity of a source? (Alternate views: http://www.fearofphysics.com/Sound/dopwhy2.html and http://lectureonline.cl.msu.edu/~mmp/applist/doppler/d.htmhttp://lectureonline.cl.msu.edu/~mmp/applist/doppler/d.htm)

16 Motion toward observer shortens wavelength (Blue Shift) Motion away from observer lengthens it (Red Shift) Faster speed  bigger change in The Doppler Effect

17 Measuring Radial Velocity Measure Doppler shift of emission or absorption lines in a spectrum  radial velocity of object No Motion Motion away Motion towards From: http://www.psi.edu/esp/method.htmlhttp://www.psi.edu/esp/method.html

18 18 Doppler Effect Activity

19 19 Measuring Radial Velocity From: http://woodahl.physics.iupui.edu/05-22_anno.jpghttp://woodahl.physics.iupui.edu/05-22_anno.jpg

20 Application: Orbiting Stars Motions of stars moving towards & away from us –Binary Stars –Extrasolar planets Mizar: –Really 4 stars! (http://ircamera.as.arizona.edu/NatSci102/NatSci102/lectures/spectroscopy.htm)http://ircamera.as.arizona.edu/NatSci102/NatSci102/lectures/spectroscopy.htm

21 More Applications Spin of Venus and/or asteroids: –Radar measurements Expansion of Universe: –Distant galaxies moving away from us

22 Why is Light so Useful? Thermal / continuous spectrum  temperature Reflected light  properties of reflecting object Absorption features  composition of absorbing material (e.g. star, planet atmosphere) Emission lines  composition of thin gas (e.g. nebula, tail of comet) Doppler effect on lines  radial velocity, spin!

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