In the classical limit calculate the wavelength corresponding to an electron with the energy of 93 keV (kiloelectronvolt). Give your answer in Angstrom (1010 m, for example, if the answer is 1.6x10-10 m, then write 1.6 as your answer). This should give you a good idea why one can use a crystal lattice with an average interatomic distance of around 1010 m to observe electron diffraction.

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Chapter1: Units, Trigonometry. And Vectors
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In the classical limit calculate the wavelength
corresponding to an electron with the energy
of 93 keV (kiloelectronvolt). Give your answer
in Angstrom (1010 m, for example, if the
answer is 1.6x10¯10 m, then write 1.6 as your
answer). This should give you a good idea
why one can use a crystal lattice with an
average interatomic distance of around 1o-10
m to observe electron diffraction.
+)
Transcribed Image Text:3:42 ul 5G Done 1 of 2 In the classical limit calculate the wavelength corresponding to an electron with the energy of 93 keV (kiloelectronvolt). Give your answer in Angstrom (1010 m, for example, if the answer is 1.6x10¯10 m, then write 1.6 as your answer). This should give you a good idea why one can use a crystal lattice with an average interatomic distance of around 1o-10 m to observe electron diffraction. +)
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