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The Photoelectric Effect
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The phenomenon of ejection of electrons from a metal surface when illuminated by light or any other radiation of suitable wavelength (or frequency) The electrons ejected from the metal surface are called “photoelectrons”
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The Experimental Setup
An adjustable voltage is applied. Voltage can be forward or reverse biased (which slows down the electrons) Photoelectrons return to cathode through an ammeter which records the current
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Current vs. Bias voltage
Low intensity (dim) High intensity (bright) Stopping potential Reverse bias Forward bias
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Stopping voltage vs. Frequency (c/l)
eV(stopping) frequency
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Photoelectric Effect Einstein suggested that light consisted of discrete units of energy E = hυ Electrons could either get hit with and absorb a whole photon, or they could not. There was no in-between (getting part of a photon). If the energy of the unit of light (photon) was not large enough to let the electron escape from the metal, no electrons would be ejected. (Hence, the existence of cutoff.) If the photon energy were large enough to eject the electron from the metal (here, W is the energy necessary to eject the electron), then energy of the photon absorbed (hυ) goes into ejecting the electron (W) plus any extra energy left over which would show up as kinetic energy (KE).
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