Photoelectric current as a function of voltage V for different light frequencies is shown here. Then the correct relation is

In photoelectric effect , the curve between photoelectric current and anode potential V (for different frequencies ) is shown in figure , then

The curves (a) , (b) , ( c ) and (d) show the variation between the applied potential difference (V) and the photoelectric current (i) , at two different intensities of light (I_(1) gt I_(2)) . In which figure is the correct variation shown ?

The work function of a metal is hv_0 . Light of frequency v falls on this metal. The photoelectric effect will take place only if

A photoelectric experiment is performed at two different light intensities I_(1) and I_(2) (I_(2) gt I_(1)) . Choose the correct graph showing the variation of stopping potential versus frequency of light.

For a photoelectric cell, the graph shown the variation of cut off voltage ( V_0 ) with frequency (v) of incident light is

In a photoelectric experiment under conditions of saturation current , we consider two different cross - section A and B as shown. Here , v_A and v_B represent the average speed of electrons at the two cross - sections .

In a photoelectric experiment, two metal pairs plates A and B are used for a given light intensity I and frequency f. work function of metal B is more than that of A. The correct variation of stopping potential difference versus frequency is given by: