Assertion: If frequency of incident light is doubled, the stopping potential will also become two times
Reason: Stopping potential is given by ` V_0 = (h)/(e ) (v-v_0)`

The stopping potential (V_(0))

The slope of frequency of incident light and stopping potential for a given surface will be

If the frequency of light in a photoelectric experiment is doubled the stopping potential will

In an experiment on photoelectric effect the frequency f of the incident light is plotted against the stopping potential V_(0) . The work function of the metal is given by ( e is the electronic charge)

If the frequency of incident light in photoelectric experiment is doubled then does the stopping potential become double or more than double, justify ?

Monochromatic light of frequency f_(1) incident on a photocell and the stopping potential is found to be V_(1) . What is the new stopping potential of the cell if it is radiated by monochromatic light of frequency f_(2) ?

Choose the correct option for the graph between the frequency of incident light and the stopping potential.

Assertion : The stopping potential depends on the frequency of incident light. Reason : The stopping potential is related to maximum kinetic energy by eV_(0)=K_(max) .

In a photoelectric experiment, the graph of frequency v of incident light (in Hz) and stopping potential V (in V) is as shown in the figure. Planck's constant is (e is the elementary charge)