The energy of a photo of wavelenght `lambda` is :

The energy of a photon of wavelength lambda is given by

The energy of a photon in eV of wavelength lambda nm will be

A dye absorbs a photon of wavelength lambda and re - emits the same energy into two phorons of wavelengths lambda_(1) and lambda_(2) respectively. The wavelength lambda is related with lambda_(1) and lambda_(2) as :

A diatomic molecule moving at a speed u absorbs a photon of wavelenght lambda and then dissociates into two identical atoms. One of the atoms is found to be moving with a speed v in a direction perpendicualr to the initial direction of motion of the molecule. Take mass of the molecule to be M and calculate the binding energy of the molecule. Assume that momentum of absorbed photon is negligible compared to that of the molecule.

The energy of a 700- nm photo is :-

The energy of a photon is given by E = (hc)/(lambda) If lambda=4xx10^(-7 )m,the energy of photon is

The energy of a photon is equal to the kinetic energy of a proton. The energy of the photon is E. Let lambda_1 be the de-Broglie wavelength of the proton and lambda_2 be the wavelength of the photon. The ratio (lambda_1)/(lambda_2) is proportional to (a) E^0 (b) E^(1//2) (c ) E^(-1) (d) E^(-2)

The ratio of the energy of a photon with lambda = 150 m to that with lambda = 300 m is