Crystal diffraction experiments can be p...

Crystal diffraction experiments can be performed using X-rays, or electrons accelerated through appropriate voltage. Which probe has greater energy? An X-ray photon or the electron? (For quantitative comparison, take the wavelength of the probe equal to `1Å`, which is of the order of interatomic spacing in the lattice), `m_(e)=9.11xx10^(-31)kg`.

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Crystal diffraction experiments can be performed using X-rays, or electrons accelerated through appropriate voltage. Which probe has greter energy? An X-ray photon or the electron? (For quantiative comparision, take the wavelength of the probe equal to 1Å , which is of the order of interatomic spacing in the lattice), m_(e)=9.11xx10^(-31)kg .

Calculate the de-Broglie wavelength of an electron of kinetic energy 100 eV. Given m_(e)=9.1xx10^(-31)kg, h=6.62xx10^(-34)Js .

A electron and a proton are detected in a cosmic ray experiment, the electron with K.E. of 5eV and the proton with K.E. of 50e. Find the ratio of their speeds. Given m_(e)=911xx10^(31)kg and m_(p)-1.67xx10^(27)kg

Find the de Broglie wavelength associated with an electron in a metal at 42^@C of temperature . Take m_e=9.11xx10^(-31)kg .

De - Broglie wavelength of an electron accelerated by a voltage of 50 V is close to (|e|=1.6xx10^(-19)C,m_(e)=9.1xx10^(-31))

Calculate de - Broglie wavelength of an electron having kinetic energy 2.8xx10^(-23)J electron having kinetic energy 2.8xx10^(-23)J. (m_(e)=9.1xx10^(-31)kg)

If an electron has an energy such that its de Broglie wavelength is 5500 Å , then the energy value of that electron is (h= 6.6 xx 10^(-34)) Js, m_( c) = 9.1 xx 10^(-31) kg

An X-ray beam of wavelength 1.0Å is incident on a crystal of lattice spacing 2.8 Å . Calculate the value of Bragg angle for first order of diffraction.

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