Ultraviolet light of wavelength 2271`Å` from a 100 W mercury source irradiates a photocell made of molybdenum metal. If the stopping potential is 1.3 volt, estimate the work function of the metal. How would the photocell respond to a high intesity `( = 10^(5) W m^(-2))` red light of wavelength `6328Å` produced by He-Ne laser ?

Ultraviolet light of wavelength 2271 Å from a 100 W mercury source irradiates a photo-cell made of molybdenum metal. If the stopping potential is -1.3 V , estimate the work function of the metal. How would the photo-cell respond to a high intensity (~10^(5) W m^(2)) red light of wavelength 6328 Å produced by a He-Ne laser ?

Ultraviolet light of wavelength 2271 Å from a 100 W mercury source irradiates a photo-cell made of molybdenum metal. If the stopping potential is -1.3 V , estimate the work function of the metal. How would the photo-cell respond to a high intensity (~10^(5) W m^(2)) red light of wavelength 6328 Å produced by a He-Ne laser ?

Ultraviolet light of wavelength 2271 Å from a 100 W mercury source irradiates a photo-cell made of molybdenum metal. If the stopping potential is -1.3 V , estimate the work function of the metal. How would the photo-cell respond to a high intensity (~10^(5) W m^(2)) red light of wavelength 6328 Å produced by a He-Ne laser ?

Ultraviolet light of wavelength 2271Å from a 100W mercury souce irradiates a photocell made of molybdenum metal. If the stopping potential is 1.3V, estimate the work function of the metal. How would the photocell respond to a high intensity (~10^(5)Wm^(-2)) red light of wave length 6328Å produced by a He-Ne laser?

Ultraviolet light of wavelength 2271 oversetcircA from a 100 W mercury source irradiates a photocell made of molybdenum metal. If the stopping potential is -1.3 V, estimate the work function of the metal.

Define the term 'intensity of radiation in photon picture of light. Ultraviolet light of wavelength 2270Å from 100W mercury source irradiates a photo cell made of a given metal. If the stopping potential is -1.3V, estimate the work function of the metal. How would the photon cell respond to a high intensity (~10^(5) W.m^(-2)) red light of wavelength 6300Å produced by a laser?