Assume that `2xx10^(-17)`J of light energy is needed by the interior of the human eye to see an object. How many photons of yellow light with `lamda=595.2` nm are needed to generate this minimum energy?

Assume that 10^(-17) J of light energy is needed by the interior of the human eye to see an object . How many photons of green light (lambda = 495nm) are needed to generate this minimum energy . [h=6.6xx10^(-34) Js]

Suppose 10^(-17)J of light energy is needed by the interior of the human eye to see an object. How many photons of green light (lambda=550nm) are needed to generate this minimum amount of energy?

Suppose 10^(-17)J of light energy is needed by the interior of the human eye to see an object. How many photons of green light (lambda=550nm) are needed to generate this minimum amount of energy?

A light beam of wavelength 400 nm is incident on a metal of work- function 2.2 eV . A particular electron absorbs a photon and makes 2 collisions before coming out of the metal (a) Assuming that 10% of existing energy is lost to the metal in each collision find the final kinetic energy of this electron as it comes out of the metal. (b) Under the same assumptions find the maximum number of collisions, the electron should suffer before it becomes unable to come out of the metal.

A light beam of wavelength 400 nm is incident on a metal of work- function 2.2 eV. A particular electron absorbs a photon and makes 2 collisions before coming out of the metal (a) Assuming that 10% of existing energy is lost to the metal in each collision find the final kinetic energy of this electron as it comes out of the metal. (b) Under the same assumptions find the maximum number of collisions, the electron should suffer before it becomes unable to come out of the metal.

The number of photons of light of barv =2.5×10^6m^(−1) necessary to provide 2 J of energy are:

The number of photons of light of barv =2.5×10^7m^(−1) necessary to provide 2 J of energy are:

The number of photons of light of barv =2.5×10^6m^(−1) necessary to provide 1 J of energy are:

The number of photons of light of barv =2.5×10^7m^(−1) necessary to provide 3 J of energy are:

The number of photons of light of barv =3.5×10^6m^(−1) necessary to provide 2 J of energy are: