kirchoff's laws emission and absorption stellar spectra
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Today
Kirchoff’s Laws
Emission and Absorption
Stellar Spectra & Composition
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Three basic types of spectra
Continuous Spectrum
Emission Line SpectrumAbsorption Line Spectrum
Spectra of astrophysical objects are usually combinations of these three basic types.
Wavelength
Intensity
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Kirchoff’s Laws• Hot, dense objects emit a
– continuous spectrum• light of all colors & wavelengths• follows thermal distribution• obeys Wien’s & Stefan-Boltzmann Laws.
• Hot, diffuse gas emits light only at specific wavelengths.– emission line spectrum
• A cool gas obscuring a continuum source will absorb specific wavelengths – absorption line spectrum
e.g., a light bulb
e.g., a neon light
e.g., a star 3
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Continuous Spectrum
• The spectrum of a common (incandescent) light bulb spans all visible wavelengths, without interruption.
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© 2007 Pearson Education Inc., publishing as Pearson Addison-Wesley
Kirchoff’s Laws• Hot, dense objects emit a
– continuous spectrum• light of all colors & wavelengths• follows thermal distribution• obeys Wien’s & Stefan-Boltzmann Laws.
• Hot, diffuse gas emits light only at specific wavelengths.– emission line spectrum
• A cool gas obscuring a continuum source will absorb specific wavelengths – absorption line spectrum
e.g., a light bulb
e.g., a neon light
e.g., a star 5
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Emission Line Spectrum
• A thin or low-density cloud of gas emits light only at specific wavelengths that depend on its composition and temperature, producing a spectrum with bright emission lines.
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© 2007 Pearson Education Inc., publishing as Pearson Addison-Wesley
Kirchoff’s Laws• Hot, dense objects emit a
– continuous spectrum• light of all colors & wavelengths• follows thermal distribution• obeys Wien’s & Stefan-Boltzmann Laws.
• Hot, diffuse gas emits light only at specific wavelengths.– emission line spectrum
• A cool gas obscuring a continuum source will absorb specific wavelengths – absorption line spectrum
e.g., a light bulb
e.g., a neon light
e.g., a star 7
![Page 8: Kirchoff's Laws Emission and Absorption Stellar Spectra](https://reader034.vdocument.in/reader034/viewer/2022042511/586a17241a28abd97c8bbd10/html5/thumbnails/8.jpg)
© 2007 Pearson Education Inc., publishing as Pearson Addison-Wesley
Absorption Line Spectrum
• A cloud of gas between us and a light bulb can absorb light of specific wavelengths, leaving dark absorption lines in the spectrum.
8N2-32
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How does light tell us what makes up things?
Spectrum of the Sun9
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Atomic Terminology
• Atomic Number = # of protons in nucleus • Atomic Mass Number = # of protons + neutrons
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Atomic Terminology • Isotope: same # of protons but different # of
neutrons (4He, 3He)
• Molecules: consist of two or more atoms (H2O, CO2)11
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• Each type of atom has a unique set of energy levels.
• Each transition corresponds to a unique photon energy, frequency, and wavelength.
Energy levels of hydrogen
Chemical Fingerprints
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Energy levels of hydrogen
Possible Electron orbits
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Energy levels of hydrogen
Transitions between orbitsrelease energy (photons)
14EmissionLine
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• Downward transitions produce a unique pattern of emission lines.
Chemical Fingerprints
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• Atoms can absorb photons with those same energies, so upward transitions produce absorption lines.
Chemical Fingerprints
16ProductionOfAbsorpLines
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Chemical Fingerprints
• Each type of atom has a unique spectral fingerprint.
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Chemical Fingerprints
• Observing the fingerprints in a spectrum tells us which kinds of atoms are present.
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N2-02/IntroToSpectroscopy
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Example: Solar Spectrum
All the dark regions are absorption lines due to all the elementsin the sun’s atmosphere. The strengths of the lines tell us about the sun’s composition and other physical properties.
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Composition of the Sun
A. The Sun is mainly made of heavy stuff
B. Most of the lines are actually from Earth’s atmosphere
C. Light stuff (H, He) has its electrons stripped off, so no lines
D. Just the outer layers of the Sun are made of heavy stuff
E. I don’t know21
Most of the lines in the solar spectrum arefrom heavy elements such as oxygen and carbon.
This means:
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Of all objects, the planets are those which appear to us under the least varied aspect. We see how we may determine their forms, their distances, their bulk, and their motions, but we can never known anything of their chemical or mineralogical structure Auguste Comte, 1842
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Solar composition
• 73% Hydrogen• 25% Helium• 2% everything else
– “metals”
• Other stars similar– H & He most common stuff in the universe– Helium was discovered in the spectrum of the sun
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Interpreting an Actual Spectrum
• By carefully studying the features in a spectrum, we can learn a great deal about the object that created it.
25MysteryGasComposition
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What is this object?
Reflected Sunlight: Continuous spectrum of visible light is like the Sun’s except that some of the blue light has been absorbed—object must look red
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What is this object?
Thermal Radiation: Infrared spectrum peaks at a wavelength corresponding to a temperature of 225 K
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What is this object?
Carbon Dioxide: Absorption lines are the fingerprint of CO2
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What is this object?
Ultraviolet Emission Lines: Indicate a hot emitting gas
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What is this object? Mars!
Hot upper atmosphere Carbon Dioxide in atmosphere
Reflected Sunlight: Mars is red
Infrared peak wavelength tells us T = 225 K
We can learn an enormous amount from spectra!30
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Molecules in space!
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Molecules have sigsas well, typically atlonger wavelengths.
More than 160(!!) different molecules havebeen found in space.
Notables: water, alcohol,glycine (simplest amino acid)