26.(a) Derive a relativistically correct formula that gives the de Broglie wavelength of a charged particle in terms of the potential difference V through which it has been accelerated. (b) What is the valid for eV << mc?? nonrelativistic approximation of this formula,

26.(a) Derive a relativistically correct formula that gives the de Broglie wavelength of a charged particle in terms of the potential difference V through which it has been accelerated. (b) What is the valid for eV << mc?? nonrelativistic approximation of this formula,

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Question

26.(a) Derive a relativistically correct formula that gives the de Broglie wavelength of a
charged particle in terms of the potential difference V through which it has been
accelerated. (b) What is the
nonrelativistic approximation of this formula,
valid for eV << mc2?

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