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Chapters 30, 31 Light Emission Light Quanta. Light Emission Topics. Chapter 31. Excitation Emission Spectra Incandescence Absorption Spectra Fluorescence Phosphorescence Lasers. Spectral lines. Spectra. Let There Be Light!. Excitation. E = hf. h = 6.6 x 10 -34 j-s. Lines.
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Light Emission Topics Chapter 31 • Excitation • Emission Spectra • Incandescence • Absorption Spectra • Fluorescence • Phosphorescence • Lasers
Excitation E =hf h = 6.6 x 10-34 j-s
Clicker Questions • Electrons with the greater potential energies with respect to the atomic nucleus are: • A) inner electrons. • B) outer electrons. • C) both the same, actually • 2) Light is emitted when an electron • A) makes a transition to a lower energy level. • B) is boosted to a higher energy level. • C) neither of these • 3) Which color of light carries the most energy per photon? • A) violet B) red C) blue D) green E) all the same
Clicker Questions • 4) Atoms can be excited by • A) photon impact. • B) electron impact. • C) thermal agitation. • D) all of these • E) none of these • 5) An atom that absorbs a photon of a certain energy can then emit • A) only a photon of the same or higher energy. • B) only a photon of the same or lower energy. • C) a photon of any energy. • D) only a photon of that energy. • 6) The variety of colors seen in a burning log comes from the variety of • A) multi-layered incandescent surfaces. • B) absorbing gases between the log and the viewer. • C) chemicals in the log. • D) electron transitions in various atoms. • E) temperatures.
Light Quanta Topics Chapter 31 • Quantization & Planck’s Constant • Photoelectric Effect • Wave-Particle Duality • Double Slit Experiment • Electron Diffraction • Uncertainty Principle • Complementarity
Quantization & Planck’s Constant Energy is only given off at the atomic level in discrete increments where E = hf
Wave/Particle Duality Lois de Broglie (1924) If waves (i.e. light) can act as a particle when it interacts with matter, then a particle can act like a wave when traveling through space : Wavelength = h/momentum , l = h/p, h = 6.6 x 10-34 j-s
Uncertainty Principle DpDx >= h/2p DEDt>=h/2p
Clicker Questions • Which of the following photons has the greatest energy? • A) blue light • B) infrared • C) green light • D) ultraviolet • E) red light • 2) In the photoelectric effect, the brighter the illuminating light on a photosensitive surface, the greater the • A) number of ejected electrons. • B) velocity of ejected electrons. • C) both of these • D) neither of these • 3) In the photoelectric effect, the greater the frequency of the illuminating light, the greater the • A) number of ejected electrons. • B) maximum velocity of ejected electrons. • C) both of these • D) neither of these
Clicker Questions • 4) In the double-slit experiment with electrons, the electrons arrive at the screen in a • A) particle-like way with a pattern that is particle-like. • B) wave-like way with a pattern that is wave-like. • C) wave-like way with a pattern that is particle-like. • D) particle-like way with a pattern that is wave-like. • 5) According to the uncertainty principle, the more we know about a particle's momentum, the less we know about its • A) mass. • B) location. • C) kinetic energy. • D) speed. • E) none of these • 6) Which of the following is not quantized? • A) electric charge • B) radiation • C) energy • D) number of people in a room • E) All are quantized.
Clicker Questions • 7) When a clean surface of potassium metal is exposed to blue light, electrons are emitted. If the intensity of the blue light is increased, which of the following will also increase? • A) the number of electrons ejected per second • B) the time lag between the absorption of blue light and the start of emission of the electrons • C) the maximum kinetic energy of the ejected electrons • D) the threshold frequency of the ejected electrons • E) none of these • 8) A bullet and a proton have the same momentum. Which has the longer wavelength? • A) the bullet • B) the proton • C) Both have the same wavelength.