In young's double slit experiment the `n^(th)` red bright band coincides with `(n+1)^(th)` blue bright band. If the wavelength of red and blue lights are `7500 A^(@)` and `5000 A^(@)`, the value of 'n' is

In an interference pattern the (n+4)^(th) blue bright fringe and n^(th) red bright fringe are formed at the same spot. If red and blue light have the wavelength of 7800Å and 5200 Å then value of n should be-

In Young.s double slit experiment, what is the path difference between the two light waves forming 5th bright band (fringe) on the screen ?

In Young's double slit experiment, the wavelength of red light is 7800 Å . The value of n for which nth bright band due to red light coincides with (n+1)th bright band due to blue light (lambda=5200Angstrom) , is

In Young.s double slit experiment sodium light is replaced by blue lamp, then the fringe width

In a Young's double slit experiment, the source is white light. One of the holes is covered by a red filter and another by a blue filter. In this case

In a Young's double slit experiment, the source is white light. One of the holes is covered by a red filter and another by a blue filter. In this case

In the figure is shown Young's double slit experiment. Q is the position of the first bright fringe on the right side of O. P is the 11^(th) bright fringe on the other side, as measured from Q. If the wavelength of the light used is 600 nm . Then S_(1)B will be equal to

In Young's double - slit experiment intensity at a point is (1//4)^("th") of the maximum intensity. The possible angular position of this point is

In Young's double-slit experiment, the ratio of intensities of a bright band and a dark band is 16:1 . The ratio of amplitudes of interfering waves will be

A : In Young.s double slit expriment the band width for red colour is more R : Wavelength of red is small among the colours of white light.