Slope of `V_(0)` vs v curve is (where `V_(0)`= Stopping potential, v=subjected freqency)

Slope of V_(0)-v curve is- (where V_(0)= Stopping potential and v=frequency)

The stopping potential (V_(0))

The ratio of slopes of K_(max) vs. V and V_(0) vs. v curves in the photoelectric effect gives (v= freqency. K_(max) = maximum kinetic energy, V_(0) =stopping potential) :

In photoelectric effect the slope of straight line graph between stopping potential (V_(s)) and frequency of incident light (v) gives

When light of frequency v_1 incident on a metal with work function W_0 (where hv_1 gt W_0), the photocurrent falls to zero at a stopping potential of V_1. If the frequency of light is increased to v_2, the stopping potential changes to V_2. Therefore, the charge of an electron is given by

When a certain photosensistive surface is illuminated with monochromatic light of frequency v, the stopping potential for the photo current is -V_(0)//2 . When the surface is illuminated by monochromatic light of frequency v//2 , the stopping potential is -V_(0) . The threshold frequency gor photoelectric emission is :

When a certain metal surface is illuminated wth light of frequency v, the stopping potential for photoelectric current is V_(0) . When the same surface is illumiinated by light of frequency (v)/(2) , the stopping potential is (V_(0))/(4) . The threshold frequency ofr photoelectric emissiohn id

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