[" In an interference pattern,at a point we observe the "16^(" th ")],[" order maximum for "lambda_(1)=6000" A.What order will be visible "],[" here if the source is replaced by light of wavelength? "],[lambda_(2)=4800A" ."],[[" (a) "40," (b) "20],[" (c) "10," (d) "80]]

If an interfernce pattern,at a point we observe the 16^th order maximum for lambda_(1)=6000Å .what order will be visible here if the soruce is replaced by light of wavelength lambda_(2)=4800Å

In a Young's double slit interference pattern at a point , we observe the 10th bright fringe (order maxima) for wavelength 7000 Å . What order maxima will be visible if the source of light is replaced by light of wavelength 5000 Å?

In an interference exeperiment, third bright fringe is obtained at a point on the screen with a light of 700 nm. What should be the wavelength of the light source in order to obtain 5th bright fringe at the same point?

In young's slit experiment 10thorder maximum is obtained at the point of observation in the interference pattern for lambda=7000Å .If the source is replaced by another one of wavelength 5000Å then the order of maximum at the same point will be-

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

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

In an interference experiment, third bright fringe is obtained at a point on the screen with a light of 700 nm . What should be the wavelength of the light source in order to obtain 5th bright fringe at the same point

In an interference experiment, third bright fringe is obtained at a point on the screen with a light of 700 nm . What should be the wavelength of the light source in order to obtain 5th bright fringe at the same point

What type of interference pattern will be observed if two light sources of same wavelengths are used in Young's double-slit experiment ?