A photon and an electron both have wavelength ` 1 Å` .
The ratio of energy of photon to that of electron is

The wavelenths gamma of a photon and the de-Broglie wavelength of an electron have the same value.Find the ratio of energy of photon to the kinetic energy of electron in terms of mass m, speed of light and planck constatn

If m is the mass of an electron and c the speed of light, the ratio of the wavelength of a photon of energy E to that of the electron of the same energy 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 of 0.5 MeV)

The energy of a photon of wavelength lambda is

What is the energy of photon whose wavelength is 6840 Å ?

The de-Broglie wavelength of an electron is same as the wavelength of a photon. The energy of a photon is ‘x’ times the K.E. of the electron, then ‘x’ is: (m-mass of electron, h-Planck’s constant, c - velocity of light)

The ratio of energy of photon of lambda = 2000 Å to that of lambda = 4000 Å is

The ratio of energy of photon of lambda = 2000 Å to that of lambda = 4000 Å is

The ratio of energy of photon of lambda = 2000 Å to that of lambda = 4000 Å is

A photon and an electron have the same de Broglie wavelength. Which has greater total energy? Explain