DeBroglie WavelengthA convenient form for the DeBroglie wavelength expression is
This is particularly appropriate for comparison with photon wavelengths since for the photon, pc=E and a 1 eV photon is seen immediately to have a wavelength of 1240 nm. For massive particles with kinetic energy KE which is much less than their rest mass energies:
For an electron with KE = 1 eV and rest mass energy 0.511 MeV, the associated DeBroglie wavelength is 1.23 nm, about a thousand times smaller than a 1 eV photon. (This is why the limiting resolution of an electron microscope is much higher than that of an optical microscope.) The following calculation uses the full relativistic expressions for kinetic energy, etc. 
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Usefulness of the Quantity pcThe relativistic energy expression for a particle is: which reduces to E = pc for photons . The quantity pc is proportional to the relativistic momentum but has energy units, and it is useful in many high energy calculations. Using and an expression for pc in terms of the relativistic kinetic energy can be obtained: For most ordinary processes the kinetic energy is much less than the rest mass energy, so the first term can usually be neglected. This leads to the useful approximation: For electron energies less than 20 keV and proton energies less than 38 MeV this expression has an error less than 1%.
For less than 1% error this requires electron energies over 3.2 MeV and proton energies over 5.8 GeV. A useful application of the quantity pc is in the calculation of the velocity as a fraction of c.
with the limiting case applying for the momentum of photon.

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