The energy of a photon is given as `Delta E`/atom `3.03 xx 10^(-19)J "atom"^(-1)`. Then the wave length `(lambda)` of the photon is

Energy of a photon with a wave length of 450 nm is

A wave has a frequency of 3 xx 10^(15) sec^(-1) . The energy of that photon is

Find energy of photons which corresponds to light of frequency 3 xx 10^(12) Hz

the energy of photon is equal to the kinetic energy of a porton,If lambda_1 is the De-Broglie wavelength of a proton, lambda_2 the wavelength associated with the proton and if the energt of the protonis E, then (lamda_1//lambda_2) is proportional to

A hydrogen atom in a state of binding energy 0.85 eV makes a transtition to a state of excitation energy of 10.2 eV. (i) What is the initial state of hydrogen atom? (ii) What is the final state of hydrogen atom ? (iii) What is the wavelength of the photon emitted ?

The minimum energy required for the photo emission of electrons from the surface of a metal is 4.95xx10^(-19)J . Calculate the critical frequency and the corresponding wave length of the photon required to eject the electron.

Ionisation energy of He^(+) is 19.6 xx 10^(-18)"J atom"^(-1) The energy of the first stationary state of Li^(2+) is