Graph is plotted between maximum kinetic energy `(E_(K))` of electron with frequency of incident photons (v) in Photo electric effect. Tge slope of curve will be-

Maximum kinetic energy (E_(k)) of a photoelectron varies with the frequency (v) of the incident radiation as

For the photoelectric effect, the maximum kinetic energy E_(k) of the emitted photoelectrons is plotted against the frequency  of the incident photons as shown in the figure. The slope of the curve gives

In an experiment of photo-electric effect, the graph of maximum kinetic energy E_(k) of the emitted photoelectrons versus the frequency v of the incident light is a straight line AB as shown in figure below : Threshold frequency of the metal.

In an experiment of photo-electric effect, the graph of maximum kinetic energy E_(k) of the emitted photoelectrons versus the frequency v of the incident light is a straight line AB as shown in figure below : Work function of the metal.

In an experiment of photo-electric effect, the graph of maximum kinetic energy E_(k) of the emitted photoelectrons versus the frequency v of the incident light is a straight line AB as shown in figure below : Stopping potential for the photoelectrons emitted by the light of frequency v=30xx10^(14)Hz

A graph regarding photoelectric effect is shown between the maximum kinetic energy of electrons and the frequency of the incident light. On the basis of data as shown in the graph, calculate (a) threshold frequency , (b) work- function, (c ) planck constant

In an experiment of photoelectric effect, the graph of maximum kinetic energy E_(K) of the emitted photoelectrons versus the frequency v of the incident light is a straight line AB as shown in Figure below: Find : (i) Threshold frequency of the metal. (ii) work function of the metal (iii) Stopping potential for the photoelectrons emitted by the light of frequency v=30xx10^(14) Hz.

The correct graph respectivley the relation between energy (E ) of photoelectrons and frequency v of incident light is

The maximum kinetic energy of electrons emitted in the photoelectric effect is linearly dependent on the ………. Of the incident radiation .

Photoelectric effect supports quantum nature of light because (a) there is a minimum frequency of light below which no photo electrons are emitted (b) the maximum kinetic energy of photo electrons depends only on the frequency of light and not on its intensity (c ) even when the metal surface is faintly illuminated, the photo electrons leave the surface immediately (d) electric charge of the photo electrons is quantised