In a YDSE experiment, d = 1mm, `lambda`= 6000Å and D= 1m. The minimum distance between two points on screen having 75% intensity of the maximum intensity will be

In Young's double-slit experiment lambda = 500 nm, d = 1 mm , and D = 4 m . The minimum distance from the central maximum for which the intensity is half of the maximum intensity is '**' xx 10^(-4) m . What is the value of '**' ?

In a Young's double-slit experiment, lambda=500nm . d=1nm and D=1m .The minimum distance from the central maximum,at which the intensity is half of the maximum intensity,is x times10^(-4)m .The value of x is(---) .

In a Young's double slit experiment lamda= 500nm, d=1.0 mm andD=1.0m . Find the minimum distance from the central maximum for which the intensity is half of the maximum intensity.

In a double experiment D=1m, d=0.2 cm and lambda = 6000 Å . The distance of the point from the central maximum where intensity is 75% of that at the centre will be:

In YDSE a = 2mm , D = 2m, lambda = 500 mm. Find distance of point on screen from central maxima where intensity becomes 50% of central maxima

In a YDSE, D = 1m, d = 1mm and lambda = 1//2 mm Find a distance between the first and central maxima on the screen.

In a Young's double slit experiment, slits are seperated by a distance d and screen is at distance D, (D gt gt d) from slit plane. If light source of wavelength lambda(lambda ltlt d) is used. The minimum distance from central point on the screen where intensity is one fourth of the maximum is (D lambda)/(nd) . Find the value of n.