The electric field associated with a monochromatic light to given by `E=E_(0) sin (1.2xx10^(15)pit-kx)` Find the maximum kinetic energy of the photoelectrons when this light falls on metal surface whose work funtion is `2.0 eV`

The electric field associated with a monochromatic beam of light becomes zero, 1.2xx10^15 times per second. Find the maximum kinetic energy of the photoelectrons when this light falls on a metal surface whose work function is 2.0eV, h=6.63xx10^(-34)Js .

The electric field associated with a monochromatic beam of light becomes zero, 1.2xx10^15 times per second. Find the maximum kinetic energy of the photoelectrons when this light falls on a metal surface whose work function is 2.0eV, h=6.63xx10^(-34)Js .

The electric field associated with a monochromataic beam of light becomes zero, 2.4xx10^(15) times per second. Find the maximum kinetic energy of the photoelectrons when this light falls on a metal surface whose work function is 2.0eV, h=6.63xx10^(-34)Js .

Stopping potential for a monochromatic light of a metal surface is 4V. What is the maximum kinetic energy of photoelectron

The electric field associated with a light wave is given by E= E_0 sin [(1.57xx 10^7 m^(-1)(x-ct)]. Find the stopping potential when this light is used in an experiment on photoelectric effect with a metal having work - function 1.9 eV.

The electric field associated with a light wave is given by E= E_0 sin [(1.57xx 10^7 m^(-1)(x-ct)]. Find the stopping potential when this light is used in an experiment on photoelectric effect with a metal having work - function 1.9 eV.

The electric field associated with a light wave is given by E= E_0 sin [(1.57x 10^7 m^(-1)(x-ct)]. Find the stopping potential when this light is used in an experiment on photoelectric affect with a metal having work - function 1.9 eV.

The electric field associated with a light wave is given by E= E_0 sin [(1.57x 10^7 m^(-1)(x-ct)]. Find the stopping potential when this light is used in an experiment on photoelectric affect with a metal having work - function 1.9 eV.

The photoelectric work function of a metal surface is 2eV.When light of frequency 1.5xx10^(15) Hz is incident on it, the maximum kinetic energy energy of the photo electrons ,approximately is