The ratio of resolving powsers of an optical microscope for two wavelengths `lambda_(1) = 4000 A and lambda_(1)=6000 A` is

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

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

A double-slit interference pattern is formed on a screen in a Young's double slit experiment performed with light consisting of two wavelengths lambda_(1) = 6000A and lambda_(2) = 4800A. It is observed that the maximum of the 16^(th) order corresponding to lambda = 6000 A coincides with a maximum of the n order corresponding to lambda = 4800 A The value of n is

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.

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

Cut off potential for a metal in photoclectric effect for light of wavelength lambda_(1), lambda_(2) and lambda_(3) is found to be V_(1),V_(2) and V_(3) volts , If V_(1),V_(2) and V_(3 are in Arithmetic progression then lambda_(1),lambda_(2) and lambda_(3) will be in

If lambda_(1), lamda_(2)and lamda_(3) are the wavelengths of the wave giving resonance with the fundamental, first and second overtones respectively of a closed organ pipe Then the ratio of wavelength lambda_(1), lamda_(2)and lamda_(3) is

If an interference experiment is performed using two wavelengths close to each other, two interference patterns corresponding to the two wavelengths are obtained on the screen. The frings system remains distinct up to a point on the screen where the n^("th") order maximum of one wavelength falls on the n^("th") order minimum of the other wavelength. Suppose in Young's double sit experiment, sodium light composed of two wavelengths lambda_(1)and lambda_(2) close to each other (with lambda_(2) greater than lambda_(1) ) is used. The order n, up to which the fringes can be seen on the screen, is given by

A dye absorbs a photon of wavelength lambda and re - emits the same energy into two phorons of wavelengths lambda_(1) and lambda_(2) respectively. The wavelength lambda is related with lambda_(1) and lambda_(2) as :

The ratio of energy of photon of lambda = 2000 Å to that of lambda = 4000 Å is