Two sources of light of wavelengths 2500 Å and 3500 Å are used in Young’s double slit expt. simultaneously. Which orders of fringes of two wavelength patterns coincide?

Two sources of light of wavelenghs 2.500 overset @A and 3,500 overst @A are used in Young's double slit experiment simultaneously.which order s of the fringes of two waelength paterns coincide?

Two sources of light of wavelength 4500 Å annd 6000 Å are used simultaneously in Young's double slit experiment. At which order of the two wavelength pattern,s the fringes coincide?

Lights of wavelengths lambda_(1)=4500 Å, lambda_(2)=6000 Å are sent through a double slit arrangement simultaneously. Then

Lights of wavelengths lambda_(1)=4500 Å, lambda_(2)=6000 Å are sent through a double slit arrangement simultaneously. Then

Two wavelengths of light lambda_1 and lambda_2 are sent through Young's double slit experiment simultaneously. If the third order bright fringe of lambda_1 coincides with fifth order dark fringe of lambda_2 , then

Two monochromatic sources of light A and B of wavelengths 5500 Å and 4400 Å respectively are used simultanesouly to produce interference bands on a screen. Which orders of the fringes in the two interference patterns will coincide?

In Young.s double slit experiment, slits are separated by 2 mm and the screen is placed at a distance of 1.2 m from the slits. Light consisting of two wavelengths 6500Å and 5200Å are used to obtain interference fringes. Then the separation between the fourth bright fringes of two different patterns produced by the two wavelengths is

In young’s double slit experiment with a source of light of wavelength 6320Å , the first maxima will occur when

A beam of light of two wavelengths 6500Å and 5200Å , is used to obtain interference fringes in Young's double slit experiment. Suppose the m^(th) brght fringe due to 6500Å coincides with n^(th) bright fringe due to 5200Å at a minimum distance from the cental maximum. Then