The ratio of resolving powers of an optical microscope for two wavelengths `lambda_1=4000Å` and `lambda_2=6000Å` is

The ratio of resolving power of an optical microscope for two wavelength lambda_(1)=4000Å and lambda_(2)=6000Å is:

The ration of resolving powers of an optical microscope for two wavelangths lamda_(1) =4000 Å and lamda_(2)=6000 Å is

Bichromatic light of wavelengths lambda_1= 5000Å and lambda_2=7000Å are used in YDSE. Then,

In YDSE a parallel beam of incident light consists of two wavelengths lambda_(1)=4000Å and lambda_(2)=5600Å . The minimum distance y on the screen, measured from the central axis, where the bright fringe due to two wavelengths coincide is (nlambda_(1)D)/(d) . Find n.

What is the wavelength of the radiation with photon energy which is the mean value of photon energies of radiations with wavelength lamda_1 = 4000 Å and lamda_2 = 6000 Å ?

Wavelength of light used in an optical instrument are lambda_(1) = 4000 Å and lambda_(2) = 5000Å then ratio of their respective resolving resolving powers (corresponding to lambda_(1) and lambda_(2) ) is

Wavelength of light used in an optical instrument are lambda_(1)=400 Å and lambda_(2)=5000 Å , then ratio of their respective resolving power (corresponding to lambda_(1) and lambda_(2)) is