Draw a graph showing variation of photoelectric current (I) with anode potential ( V ) for different intensities of incident radiation. Name the characteristic of incident radiation that is kept constant in this experiment.

The graph shows the variation of photoelectric current with accelerating potential of different intensities. a. What conclusion do you arrive from the graph? b. Photoelectric current is not zero even if the accelerating voltage is zero. Justify your answer. c. Why two curves meet at one point on the retarding potential axis ?

Does the stopping potential in photoelectric emission depend upon the intensity of the incident radiation in a photocell ?

In photoelectric effect, why should the photoelectric current increase as the intensity of monochromatic radiation as the intensity of monochromatic radiation incident on a photosenstive surface is increased ? Explain.

Plota graph showing the variation of photo current vs collector potential for three difference intensities I_(1) gt I_(2) gt I_(3) two of which (I_(2) and I_(2)) have the same frequency v and the third has frequency v_(1) gt v .

a. Draw the graph showing the variation of potential with frequency of incident radiation. b. What does the slope of the graph represent? c. From the slope how will you find the value of 'h' ?

The Figure shows a plot of photo current versus anode potential for a photo sensitive surface for three different radiations. Which one of the following is a correct statement ? .

The slope of the graph showing the variation of potential difference V on x axis and current on y axis gives conductor’s:

Does the stopping potential in photoelectric emission depend upon the frequency of the incident radiation?

In photoelectric effect, a graph is drawn taking the frequency of incident radiation along X-axis and the corresponding stopping potential along the Y-axis. The nature of the graph is :

In a photoelectric experiment, if both the intensity and frequency of the incident light doubled, then the saturation photoelectric current