It is found that yellow light does not eject photoelectrons from a metal. Is it advisable to try with orange light? With green light?

Wavelenght of green light is

A beam of light of certain intensity and wavelength ejects photoelectrons from a metal surface. This beam is then replaced by another beam of less intensity and smaller wavelength . As a result

A photosensitive surface ejects electrons when green light is incident on it. It does not emit any photoelectrons when exposed to orange light. Will there be any photoelectrons emission if blue light is incident on it ?

Light from balmer series of hydrogen is able to eject photoelectron from a metal what can be the maximum work function of the metal?

A metallic surface ejects electrons when exposed to green light of intensity I but not when exposed to yellow light of intensity I. It is possible to eject electrons from the same surface by (i) yellow light of some intensity which is more than I (ii) green light of any intensity (iii) red light of any intensity (iv) violet light of any intensity

Amonochromatic light source of power 5mW emits 8 xx 10^15 photons per second. This light ejects photoelectrons from a metal surface. The stopping potential for this set up is 2V. Calculate the work function of the metal.

The yellow light used for street and road illumination is from

Blue light can cause photo electric emission from a metal, but yellow light cannot. If red light Is incident on the metal,

The yellow light used for illumination is from

A monochromatic light source of intensity 5 m W emits (8x10^15) photons per second . This light ejects photoelectrons from a metal surface. The stopping potential for this setup is 2.0 V. Calculate the work function of the metal.