The stopping potential as a function of the frequency of the incident radiation is plotted for two different photoelectric surfaces `A` and `B` . The graphs show that work function of `A` is

The stopping potential as a function of frequency of incident radiation is plotted for two different photoelectric surfaces A and B . The graphs as shown in figure shows that , the work function of A is

Does work function depend on the frequency of incident radiation?

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.

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.

Figure show the variation of the stopping potential (V_(0)) with the frequency (v) of the incident radiations for two different photosensitive matererial M_(1) and M_(2) What are the values of work functions for M_(1) and M_(2) respectively

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

In a photoelectric effect experiment, the graph between the stopping potential (V) and frequency (v) of the incident radiations on two different metal plates P and Q are shown in plates, P and Q has greater value of work function ? (ii) What does the slope of the lines depict?

The given graph shows the variation of KE with frequency of incident radiations for two surfaces A and B. Which of the two metals has greater work function?