Write Einstein.s photoelectric equation.

(a) (i) Write Einstein.s photo electric equation. (ii) if the frequency of the incident radiation is increased from 4xx10^(15) Hz to 8xx10^(15) Hz by how much will the stopping potential for a given photosensitive surface go up ? (b) Laser light of wavelength 630 nmis incident on a pair of slits which are separated by 1.8 mm. If the screen is kept 80 cm away from the two slits. calculate : (i) fringe separation i.e., fringr width (ii) distance of 10^("th") bright fringe from the centre of the interference pattern.

What is photoelectric effect? Mention the Einstein's photoelectric equation.

According to Einstein's photoelectric equation (symbols have their usual meaning)

(a) Why photoelectric effect cannot be explained on the basis of wave nature of light? (b) Write the basic features of photon picture of electromagnetic radiation on which Einstein's photoelectric equation is based.

According to Einstein's photoelectric equation, the graph between kinetic energy of photoelectrons ejected and the frequency of the incident radiation is :

According to Einstein's photoelectric equation , the graph between the kinetic energy of photoelectrons ejected and the frequency of incident radiation is

Using Einstein's photoelectric equation show how the cut -off voltage and threshold frequency for a given photosensitive material can be determined with the help of a suitable plot/graph.

According to Einstein's photoelectric equation, the plot of the maximum kinetic energy of the emitted photoelectrons from a metal versus frequency of the incident radiation gives a straight line whose slope

How does one explain the emission of electron from a photosensitive surface with te help of Einstein's photoelectric equation ?

(a) describe briefly three experimentally observed features in the phenomenon of photoelectric effect. (b) Discuss briefly how wave theory of light cannot explain these features. OR (a) Write the important properties of photons which are used to establish Eintein's photoelectric equation . (b) Use this equation to explain the concept of (i) threshould frequency and (ii) stopping potential .3.