For photo - electric effect with incident photon wavelength `lambda` the stopping is `V_(0)` identify the correct variation(s) of `V_(0)` with `lambda and 1 // lambda`

When a metallic surface is illuminated with radiation of wavelength lambda ,the stopping potential is V.If the same surface is illuminated with radiation of wavelength 2 lambda ,the metallic surface is

A certain metallic surface is illuminated with monochromatic light of wavelength lambda .The stopping potentail for photelectric current for this light is 3V_(0) .If the same surface is illuminated with light of wavelength 2lambda ,the stopping potential is V_(0) .The threshold wavelength for this surface for photoelectric effect is

When a metallic surface is illuminated by a monochromatic light of lamda the stopping potential for photoelectric current is 4V_(0) when the same surface is illuminated by light of wavelength 3 lamda the stopping potential is V_(0) The threshold wavelength for this surface for photoelectric effect is -

In an experiment on photoelectric effect the stopping potentail was measured to be V_(1) and V_(2) with incident light of wavelength lambda and (lambda)/(2) respectively.The relation between V_(1) and V_(2) is….

When photon of wavelength lambda_(1) are incident on an isolated shere supended by an insulated , the corresponding stopping potential is found to be V . When photon of wavelength lambda_(2) are used , the orresponding stopping potential was thrice the above value. If light of wavelength lambda_(3) is used , carculate the stopping potential for this case.

The potential energy of a partical varies as . U(x) = E_0 for 0 le x le 1 = 0 for x gt 1 for 0 le x le 1 de- Broglie wavelength is lambda_1 and for xgt1 the de-Broglie wavelength is lambda_2 . Total energy of the partical is 2E_0 . find (lambda_1)/(lambda_2).

Cut off potential for a metal in photoclectric effect for light of wavelength lambda_(1), lambda_(2) and lambda_(3) is found to be V_(1),V_(2) and V_(3) volts , If V_(1),V_(2) and V_(3 are in Arithmetic progression then lambda_(1),lambda_(2) and lambda_(3) will be in

If K_(1) and K_(2) are maximum K.E. photoelectron emitted when lights wavelength lambda_(1) and lambda_(2) respectively incident a metallic surface .If lambda_(1)=3lambda_(2) ,then…..

An alpha - particle and a proton are accelerated from rest by a potential difference of 100 V After this their de Broglie wavelength are lambda_(alpha) and lambda_(p) respectively The ratio (lambda_(p))/ lambda_(alpha) , to the nearest integer is

Two protons are having same kinetic energy. One proton enters a uniform magnetic field at right angles ot it. Second proton enters a uniform electric field in the direction of field. After some time their de Broglie wavelengths are lambda_1 and lambda_2 then (a) lambda_1 = lambda_2 (b) lambda_1 lt lambda_2 (c) lambda_1 gt lambda_2 (d) some more information is required