A photon with frequency 9.996 x 10^14 Hz strikes a slab of lead and is absorbed...
A photon with frequency 9.996 x 10^14 Hz strikes a slab of lead and is absorbed without freeing an electron.
a) If the frequency of that photon is the threshold frequency for lead, calculate the work function for lead. Express your answer in eV.
b) Assume a photon of wavelength 200 nm strikes the lead, freeing an electron. Calculate the maximum kinetic energy (in Joules) of the liberated electron.
c) Calculate the de Broglie wavelength of the emitted electron. You will need to begin with the kinetic energy to determine the speed of the electron, which is not relativistic.
d) Assume the process described above occurs repeatedly, in rapid succession, and that the emitted electrons strike a double slit with a slit separation of 0.300 um. The slits are 0.5 mm from the detection screen. Calculate the distance to the first and second interference maxima.
e) Calculate the first maximum (m=1) for the light of wavelength 200 nm. How does this value compare to (m=1) for the electron?
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A photon with frequency 9.996 x 10^14 Hz strikes a slab of lead
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An X-ray photon with a wavelength of 0.960 nm strikes a surface. The emitted electron has...
An X-ray photon with a wavelength of 0.960 nm strikes a surface. The emitted electron has a kinetic energy of 937 eV. What is the binding energy of the electron in kJ/mol? [Note that KE = 12mv2 and 1 electron volt (eV) = 1.602×10−19J.]
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