When ultraviolet light is incident on a photocell, its stopping potential is `V_(0)` and the maximum kinetic energy of the photoelectrons is `K_(max)`. When X-rays are incident on the same cell, then:

Statement - 1 : When ultraviolet light is incident on a photocell , its stopping potential is V_(0) and the maximum kinetic energy of the photoelectrons is K_(max) when the ultraviolet light is replaces by X- rays both V_(0) and K_(max) increase Statement - 2 : Photoelectrons are emitted with speeds ranging from zero to a maximum value became of the range of frequencies present in the incident light

Statement - 1 : When ultraviolet light is incident on a photocell , its stopping potential is V_(0) and the maximum kinetic energy of the photoelectrons is K_(max) when the ultraviolet light is replaces by X- rays both V_(0) and K_(max) increase Statement - 2 : Photoelectrons are emitted with speeds ranging from zero to a maximum value became of the range of frequencies present in the incident light

Statement - 1 : When ultraviolet light is incident on a photoncell , its stopping potential is V_(0) and the maximum kinetic energy of the photoelectrons is K_(max) when the altraviolet light is replaces by X- rays both V_(0) and K_(max) increase Statement - 2 : photoelectrons are emitted with speeds ranging from zero to a maximum value because of the range of frequencies present in the incident light

The maximum kinetic energy of a photoelectron is 3 eV. What is its stopping potential ?

The maximum kinetic energy of a photoelectron is 3eV . What is its stopping potential ?

The maximum kinetic energy of a photoelectron is 3 eV. What is its stopping potential ?

For a monochromatic light incident on a metal surface, the stopping potential is V. Then the kinetic energy of the fastest photoelectrons emitted from that surface is

The maximum kinetic energy of the photoelectrons is related to the stopping potential (v_(0)) thorugh the relation