Crystal diffraction experiments can be performed using X-rays, or electrons accelerated through appropriate voltage. Which probe has greater energy? (For quantitative comparison, take the wavelength of the probe equal to 1 Å, which is of the order of inter-atomic spacing in the lattice) (`m_e=9.11 xx 10^(–31)` kg).

Crystal diffraction experiments can be performed using X-rays, or electrons accelerated through appropriate voltage. Which probe has greater energy? (For quantitative comparison, take the wavelength of the probe equal to 1 Å , which is of the order of inter-atomic spacing in the lattice) (m_(e) =9.11 × 10^(-31) kg).

Crystal diffraction experiments can be performed using X-rays, or electrons accelerated through appropriate voltage. Which probe has greater energy? (For quantitative comparison, take the wavelength of the probe equal to 1 Å , which is of the order of inter-atomic spacing in the lattice) (m_(e) =9.11 × 10^(-31) kg).

Crystal diffraction experiments can be performed using X-rays, or electrons accelerated through appropriate voltage? Which probe has greater energy? (For quantitative comparison, take the wavelength of the probe equal to 1oversetcircA , which is of the order of inter atomic spacing in the lattice), (m_e=9.11 xx 10^-31kg)

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 .

Find the electric field intensity in which an electron experiences a force equivalent to its own weight. (Take m_(e )= 9.1 xx 10^(-31)kg )