The graph between `1/lambda` and stopping potential `V_(0)` of two metals having work funcation `phi_(1)` and `phi_(2)` in an experiment of photoelectric effect is obtained as shown in the figure. Find out -

(i) Threshold wavelength ofboth metals
(ii) `phi_(1) : phi_(2)`
(iii) Whihc metal cen emit photoelectrons with visible light ?

The graph between 1//lambda and stopping potential (V) of three metals having work- functions Phi_1 , Phi_2 and Phi_3 in an experiment of photoelectric effect is plotted as shown in the figure. Which of the following statement(s) is/are correct? (Here, lambda is the wavelength of the incident ray).

The graph between the stopping potential (V_(0)) and ((1)/(lambda)) is shown in the figure phi_(1) , phi_(2) and phi_(3) are work function , which of the following is /are correct

A metal has a work function phi_(0) and its corresponding threshold wavelength is lambda_(0) . If the threshold wavelength for a metal whose work function is (phi_(0))/(3) is n lambda_(0) , then what is the value of n ?

The work function (phi) of some metals is listed below . The number of metals which will show photoelectric effect when light of 300 nm wavelength falls on the metal is :

In an experiment of photoelectric effect, the graph of maximum kinetic energy E_(K) of the emitted photoelectrons versus the frequency v of the incident light is a straight line AB as shown in Figure below: Find : (i) Threshold frequency of the metal. (ii) work function of the metal (iii) Stopping potential for the photoelectrons emitted by the light of frequency v=30xx10^(14) Hz.

The graph between the stopping potential V_(0) and frequency v for two different metal plates P and Q are shown in the figure. Which of the metals has greater threshold wavelength and work function.

In the study of a photoelectric effect the graph between the stopping potential V and frequency nu of the incident radiation on two different metals P and Q is shown in fig. (i) which one of two metals have higher threshold frequency (ii) Determine the work function of the metal which has greater value (iii) Find the maximum kinetic energy of electron emitted by light of frequency 8xx10^(14) Hz for this metal.

When light of wavelength lambda is incident on a metal surface, stopping potential is found to be x. When light of wavelength n lambda is incident on the same metal surface, stopping potential is found to be (x)/(n+1) . Find the threshold wavelength of the metal.

When a metal plate is exposed to a monochromatic beam of light of wavelength 400nm, a negative potential of 1.1 V is needed to stop the photocurrent . Find the threshold wavelength for the metal.

When light of wavelength λ is incident on a metal surface ,stopping potential is found to be V_circ . When light of wavelength nλ is in incident on the same metal surface ,stopping potential is found to be V_circ/(n+1) . The threshold wavelength of the metal is