Emission and Absorption Spectra - AP Physics 2
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Identify the term: spectrum with bright lines on dark background.
Identify the term: spectrum with bright lines on dark background.
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Emission spectrum. Bright lines indicate emission of specific wavelengths against dark background.
Emission spectrum. Bright lines indicate emission of specific wavelengths against dark background.
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What type of spectrum does a hot, dense object emit?
What type of spectrum does a hot, dense object emit?
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Continuous spectrum. Dense objects emit all wavelengths continuously due to thermal motion.
Continuous spectrum. Dense objects emit all wavelengths continuously due to thermal motion.
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Identify the spectrum: Sunlight passing through Earth's atmosphere.
Identify the spectrum: Sunlight passing through Earth's atmosphere.
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Absorption spectrum. Atmospheric gases absorb specific wavelengths from continuous sunlight.
Absorption spectrum. Atmospheric gases absorb specific wavelengths from continuous sunlight.
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Identify the region of the electromagnetic spectrum used in X-ray spectroscopy.
Identify the region of the electromagnetic spectrum used in X-ray spectroscopy.
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X-ray region. High-energy X-rays probe inner electron shells of atoms.
X-ray region. High-energy X-rays probe inner electron shells of atoms.
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Which spectral lines are visible when sodium vapor is heated?
Which spectral lines are visible when sodium vapor is heated?
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Bright yellow lines. Sodium's characteristic D-lines appear as intense yellow doublet.
Bright yellow lines. Sodium's characteristic D-lines appear as intense yellow doublet.
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What is the result of electrons transitioning between energy levels?
What is the result of electrons transitioning between energy levels?
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Emission or absorption of photons. Energy differences between levels determine photon wavelength emitted or absorbed.
Emission or absorption of photons. Energy differences between levels determine photon wavelength emitted or absorbed.
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Identify the instrument used to view spectra.
Identify the instrument used to view spectra.
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Spectroscope. Optical instrument that disperses light into component wavelengths for observation.
Spectroscope. Optical instrument that disperses light into component wavelengths for observation.
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State the condition for observing an absorption spectrum.
State the condition for observing an absorption spectrum.
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Electrons absorb energy and move to higher levels. Energy absorption promotes electrons to higher quantum states.
Electrons absorb energy and move to higher levels. Energy absorption promotes electrons to higher quantum states.
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What is the purpose of using a monochromator in spectroscopy?
What is the purpose of using a monochromator in spectroscopy?
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To isolate specific wavelengths of light. Device selects narrow wavelength bands from broader spectrum.
To isolate specific wavelengths of light. Device selects narrow wavelength bands from broader spectrum.
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What is the Balmer series associated with?
What is the Balmer series associated with?
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Emission spectrum of hydrogen. Series of visible lines from electron transitions to $n=2$ level.
Emission spectrum of hydrogen. Series of visible lines from electron transitions to $n=2$ level.
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Identify the spectrum: Sunlight passing through Earth's atmosphere.
Identify the spectrum: Sunlight passing through Earth's atmosphere.
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Absorption spectrum. Atmospheric gases absorb specific wavelengths from continuous sunlight.
Absorption spectrum. Atmospheric gases absorb specific wavelengths from continuous sunlight.
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What is an emission spectrum?
What is an emission spectrum?
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A spectrum of frequencies emitted by an atom or molecule. Shows specific wavelengths of light emitted when electrons drop to lower energy levels.
A spectrum of frequencies emitted by an atom or molecule. Shows specific wavelengths of light emitted when electrons drop to lower energy levels.
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What type of spectrum results from a prism dispersing sunlight?
What type of spectrum results from a prism dispersing sunlight?
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Continuous spectrum. Prism disperses white light into complete rainbow without gaps.
Continuous spectrum. Prism disperses white light into complete rainbow without gaps.
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What type of light source is ideal for observing a continuous spectrum?
What type of light source is ideal for observing a continuous spectrum?
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Incandescent bulb or blackbody radiator. Thermal sources emit broad, continuous wavelength distribution.
Incandescent bulb or blackbody radiator. Thermal sources emit broad, continuous wavelength distribution.
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Which spectral lines are visible when sodium vapor is heated?
Which spectral lines are visible when sodium vapor is heated?
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Bright yellow lines. Sodium's characteristic D-lines appear as intense yellow doublet.
Bright yellow lines. Sodium's characteristic D-lines appear as intense yellow doublet.
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State the condition for observing an emission spectrum.
State the condition for observing an emission spectrum.
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Excited electrons fall to lower energy levels. Energy release during electron transitions produces characteristic photons.
Excited electrons fall to lower energy levels. Energy release during electron transitions produces characteristic photons.
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Identify the region of the electromagnetic spectrum used in X-ray spectroscopy.
Identify the region of the electromagnetic spectrum used in X-ray spectroscopy.
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X-ray region. High-energy X-rays probe inner electron shells of atoms.
X-ray region. High-energy X-rays probe inner electron shells of atoms.
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Which spectrum is used in neon signs?
Which spectrum is used in neon signs?
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Emission spectrum. Excited gas atoms emit characteristic colors when electrons drop energy levels.
Emission spectrum. Excited gas atoms emit characteristic colors when electrons drop energy levels.
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What is a spectrograph?
What is a spectrograph?
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An instrument that records a spectrum photographically. Device that captures and records spectral data permanently for analysis.
An instrument that records a spectrum photographically. Device that captures and records spectral data permanently for analysis.
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What feature distinguishes a bright-line spectrum?
What feature distinguishes a bright-line spectrum?
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Bright lines indicating emitted wavelengths. Emission spectrum shows bright lines against dark background.
Bright lines indicating emitted wavelengths. Emission spectrum shows bright lines against dark background.
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What region of the electromagnetic spectrum do Balmer lines appear in?
What region of the electromagnetic spectrum do Balmer lines appear in?
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Visible region. Balmer series produces visible light from hydrogen atom transitions.
Visible region. Balmer series produces visible light from hydrogen atom transitions.
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Which spectrum is used to identify elements in stars?
Which spectrum is used to identify elements in stars?
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Absorption spectrum. Dark absorption lines reveal elemental composition of stellar atmospheres.
Absorption spectrum. Dark absorption lines reveal elemental composition of stellar atmospheres.
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What causes the dark lines in an absorption spectrum?
What causes the dark lines in an absorption spectrum?
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Absorption of specific wavelengths by a substance. Electrons absorb photons of specific energies, removing those wavelengths from spectrum.
Absorption of specific wavelengths by a substance. Electrons absorb photons of specific energies, removing those wavelengths from spectrum.
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Which spectrum is produced by incandescent light bulbs?
Which spectrum is produced by incandescent light bulbs?
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Continuous spectrum. Hot tungsten filament produces thermal radiation across all visible wavelengths.
Continuous spectrum. Hot tungsten filament produces thermal radiation across all visible wavelengths.
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Identify the term: spectrum with dark lines on bright background.
Identify the term: spectrum with dark lines on bright background.
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Absorption spectrum. Dark lines indicate absorption of specific wavelengths from continuous spectrum.
Absorption spectrum. Dark lines indicate absorption of specific wavelengths from continuous spectrum.
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What is the role of a diffraction grating in spectroscopy?
What is the role of a diffraction grating in spectroscopy?
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To separate light into its component wavelengths. Grating diffracts light into distinct wavelengths for spectral analysis.
To separate light into its component wavelengths. Grating diffracts light into distinct wavelengths for spectral analysis.
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What is the primary difference between emission and absorption spectra?
What is the primary difference between emission and absorption spectra?
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Emission shows bright lines; absorption shows dark lines. Emission adds light at specific wavelengths; absorption removes it.
Emission shows bright lines; absorption shows dark lines. Emission adds light at specific wavelengths; absorption removes it.
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What is the primary use of absorption spectra in astronomy?
What is the primary use of absorption spectra in astronomy?
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To determine the composition of stars and planets. Spectral lines act as fingerprints identifying specific elements remotely.
To determine the composition of stars and planets. Spectral lines act as fingerprints identifying specific elements remotely.
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What is quantified by the intensity of spectral lines?
What is quantified by the intensity of spectral lines?
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The concentration of elements. Line intensity correlates with number of atoms present.
The concentration of elements. Line intensity correlates with number of atoms present.
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What type of spectrum does a hot, dense object emit?
What type of spectrum does a hot, dense object emit?
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Continuous spectrum. Dense objects emit all wavelengths continuously due to thermal motion.
Continuous spectrum. Dense objects emit all wavelengths continuously due to thermal motion.
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