Graph between stopping potential and frequency of photon is given in figure

Find out work function of metal:

Graph between stopping potential and frequency of light as shown find the work function

In the study of a photoelectric effect the graph between the stopping potential V and frequency nu of the incident radiation on two different metals P and Q is shown in fig. (i) which one of two metals have higher threshold frequency (ii) Determine the work function of the metal which has greater value (iii) Find the maximum kinetic energy of electron emitted by light of frequency 8xx10^(14) Hz for this metal.

The figure shows different graphs between stopping potential (V_(0)) and frequency (v) for photosensitive surface of cesium , potassium , sodium and lithium. The plots are parallel. Correct ranking of the targets according to their work function greatest forst will be

Figure shows the graph of stopping potential verus that frequency of a photosensitive metal. The plank's constant and work funcation of the metal are

The graph between the stopping potential V_(0) and frequency v for two different metal plates P and Q are shown in the figure. Which of the metals has greater threshold wavelength and work function.

The slope of the graph drawn between stopping potential and frequency of incident radiation will be

Stopping potential [V volts] is plotted against frequancy of light used [vec] . Find work function (eV)

A monochromatic light source of intensity 5 mW emits (8xx10^15) photons per second . This light ejects photoelectrons from a metal surface. The stopping potential for this setup is 2.0 V. Calculate the work function of the metal.

The following figure shows a graph for the stopping potential as a function of the frequency of incident light illuminating a metal surface. Find the photoelectric work function for this surface.

A light is incidence on a metallic surface. Graph etween stopping potential V_s and 1/lambda is as shown in figure. when intensity of ligh is increases at given frequency then: