Figure shows graph of stopping potential v frequency in experiment of photo-electric effect work function of metal will be……e=change of electron.

Figure shows the graph of stopping potential verus that frequency of a photosensitive metal. The plank's constant and work funcation of the metal are

For metals cesium ,potassium ,sodium and lithium graph of stopping potential ( V_(0))to frequency (v) is shown in figure .These graph are parallel.Arrange work function from lerger to smaller value.

For photo senstive surface A and B graph of stopping potential versus frequency (v) is shown in figure .From graph work function of A surface …..

The figure shows the results of an experiment involving photoelectric effect. The graphs A, B,C and D relate to a light beam having different wavelengths. Select the correct alternative.

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 of both metals (ii) phi_(1) : phi_(2) (iii) Which metal can emit photoelectrons with visible light ?

Column-I show graph of electric potential V versus x and y in a certain region for four situations. Column-II shows the range of angle which the electric field vector makes with positive x-direction

A mercury lamp is a convenient source for studying frequency dependence of photoelectric emission, since it gives a number of spectral lines ranging from the Uv to the red end of the visible spectrum. In our experiment with rubidium photo-cell, the following lines from a mercury source were used: lambda_(1) = 3650 Å, lambda_(2) = 4047 Å, lambda_(3) = 4358 Å, lambda_(4) = 5461 Å, lambda_(5) = 6907 Å , The stopping voltages, respectively, were measured to be: V_(01) = 1.28 V, V_(02) = 0.95 V, V_(03) = 0.74 V, V_(04) = 0.16 V, V_(05) = 0 V Determine the value of Planck’s constant h, the threshold frequency and work function for the material. [Note: You will notice that to get h from the data, you will need to know e (which you can take to be 1.6 xx 10^(-19) C ). Experiments of this kind on Na, Li, K, etc. were performed by Millikan, who, using his own value of e (from the oil-drop experiment) confirmed Einstein’s photoelectric equation and at the same time gave an independent estimate of the value of h.]

According to Einstein's equation of photo-electric effect which of the following graph shows realtion between kinetic energy of electron emitted and frequency of incident radiation?

Light of wavelength 488 nm is produced by an argon laser which is used in the photoelectric effect. When light from this spectral line is incident on the emitter, the stopping (cut-off) potential of photoelectrons is 0.38 V. Find the work function of the material from which the emitter is made.

If photo-electric effect,when frequency of incident radiation is doubled ,maximum speed of electron emitted also becomes double .work function of metal will be……