The equivalent wavelength of a moving electron has the same value as that of a photon having an energy of `6xx10^(-17)J`. Calculate the momentum of the electron.

The equivalent wavelength of a moving electron has the same value as that of a photon having an energy of 6 xx 10^(-17) J . Calculate the momentum of the electron.

Calculate the momentum of a photon of energy 6xx10^(-19)J .

Calculate the momentum of a photon of energy 6 xx10^(-19)J .

The de Broglie wavelength of an electron and the wavelength of a photon are same. The ratio between the energy of the photon and the momentum of the electron is

The de Broglie wavelength of an electron is the same as that of a 50 keV X-ray photon. The ratio of the energy of the photon to the kinetic energy of the electron is the energy equivalent of electron mass is 0.5 MeV)

The de-Broglie wavelength of an electron is the same as that of a 50 ke X-ray photon. The ratio of the energy of the photon to the kinetic energy of the electron is ( the energy equivalent of electron mass of 0.5 MeV)

The de-Broglie wavelength of an electron is the same as that of a 50 keV X-ray photon. The ratio of the energy of the photon to the kinetic energy of the electron is ( the energy equivalent of electron mass of 0.5 MeV)

The de Broglie wavelength of an electron is the same as that 50 keV X-ray photon. The ratio of the energy of the photon to the kinetic energy of the electron is (the energy equivalent of electron mass is 0.5 MeV)