A beam of light consisting of two wavelength `6300 A^(@)` and `lambda A^(@)` is used to obtain interference frings in a Young's double slit experiment. If `4^(th)` bright fringe of `6300 A^(@)` coincides with `5^(th)` dark fringe of `lambdaA^(@)`, the value of `lambda`(in`A^(@)`) is

A beam of light consisting of two wavelength 6300 Å and lambda Å is used to obtain interference fringes in a Young’s double slit experiment. If 4^(th) bright fringe of 6300 Å coincides with 5^(th) dark fringe of lambda Å , the value of lambda (in Å) is

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

A beam of light consisting of two wavelength 6500 overset@A and 5200 overset@A is used to obtain interference fringes in Young’s double slit experiment. Suppose mth bright fringe due to 6500 overset@A coincides with pth bright fringe due to 5200 overset@A at a maximum distance from the central maximum. Then

In Young's double slit experiment, the interference bright fringes are of:

A beam of light consists of two wavelengths, 6300Å and 5600Å . This beam of light is used to obtain an interference pattern in YDSE. If 4^("th") bright fringe of 6300Å coincides with the n^("th") dark fringe of 5600Å from the central line, then find the value of n.

A beam of light consists of two wavelengths, 6300Å and 5600Å . This beam of light is used to obtain an interference pattern in YDSE. If 4^("th") bright fringe of 6300Å coincides with the n^("th") dark fringe of 5600Å from the central line, then find the value of n.

A beam of light consisting of two wavelengths, 650 nm and 520 nm, is used to obtain interference fringes in a Young's double-slit experiment. Find the distance of the third bright fringe on the screen from the central maximum for wavelength 650 nm.