wave particle duality photoelectric effect. waves and particles so far this year, we have treated...
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Wave Particle DualityPhotoelectric Effect
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Waves and Particles
• So far this year, we have treated waves and particles as if they are separate entities. They are not.– Electrons can behave like waves– Photons can behave like particles
• This is known as wave-particle duality
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Young’s Double Slit Experiment
• Video Clip
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Wavelength of an Electron
• DeBroglie (Deh Bro-yay) Wavelength
• = h/p = h/mv– h• Planck’s constant • 6.626x10-34
– p – momentum
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Photon Energy
• The energy of a photon is determined by its frequency
• E = hf– E – energy– h – Planck’s constant = 6.626x10-34
– f – frequency• E = hc/– c = 3x108 m/s– – wavelength
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Photons and Momentum
• Despite being massless, photons have momentum
– p = E/c = hf/c = h/
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Example
• An electron at rest absorbs 4.1x10-19 J of energy from a photon. Determine:– The velocity of the electron (m = 9.11x10-31 kg)– The de Broglie wavelength of the electron– The momentum of the photon
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Photoelectric Effect
• What happens when you put metal in a microwave?
• Shining light on certain metals causes electrons to be emitted (ionized)
• This emission can be measured as a current
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Photoelectric Effect
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Properties of the Photoelectric Effect
• Remember that for light:– Greater frequency mean more energy– Greater brightness means more photons
• Therefore:– Greater frequency means each electron that
escapes will have more energy– Greater brightness means more electrons will be
able to escape which means there will be a larger current
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Photoelectric Effect
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Cutoff Frequency and the Work Function
• If the frequency drops too low, the photons will not have enough energy to remove electrons from the atoms
• The frequency this occurs at is called the cutoff frequency
• This energy associated with this frequency is called the work function
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Photoelectric Effect Equation
• KE = hf – hf0 = hf – – KE – kinetic energy of escaped electron– f – actual frequency of incoming photon– f0 – cutoff frequency– • Work function• = hf0
– KE < 0 the electron will not escape the atom– KE > 0 the electron will escape the atom
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Stopping Potential
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Kinetic Energy and Stopping Potential
• An electron that escapes an atom can be stopped by applying an electric potential called the stopping potential
• Knowing the stopping potential as well as the light frequency allows the work function of a metal to be measured
• KE = -qV0
– q = -1.6x10-19 J– V0 – Stopping Potential
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Example Problem
• Using the graph on the next slide:– Determine the cutoff frequency– Calculate the work function– Calculate the kinetic energy of an electron that
has been ionized by a photon with a frequency of 8.3x1014 Hz
– The stopping potential necessary to bring this electron to rest
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Homework Corrections
• #3
• #7ish after 3.0”103 = 3.0 x 103
• Question 11 – remember KE = ½ mv2