In Young's double - slit experiment, the intensities at two points `P_(1) and P_(2)` on the screen are `I_(1) and I_(2)` respectively. If `P_(1)` is located at the central bright fringe and `P_(2)` is located at a distance equal to quarter of fringe width from `P_(1)`, then `(I_(1))/(I_(2))` is

In the Young's double slit experiment, the intensities at two points P_(1) and P_(2) on the screen are respectively I_(1) and I_(2) If P_(1) is located at the centre of a bright fringe and P_(2) is located at a distance equal to a quarter of fringe width from P_(1) then I_(1)/I_(2) is

In the Young's double slit experiment, the intensities at two points P_(1) and P_(2) on the screen are respectively I_(1) and I_(2) If P_(1) is located at the centre of a bright fringe and P_(2) is located at a distance equal to a quarter of fringe width from P_(1) then I_(1)/I_(2) is a.2 b.3 c.4 d.None of these

In a Young's double slit experiment, I_0 is the intensity at the central maximum and beta is the fringe width. The intensity at a point P distant x from the centre will be

In a Young's double slit experiment, I_0 is the intensity at the central maximum and beta is the fringe width. The intensity at a point P distant x from the centre will be

In a Young's double slit experiment, I_0 is the intensity at the central maximum and beta is the fringe width. The intensity at a point P distant x from the centre will be

In a Young's double slit experiment, let S_(1) and S_(2) be the two slits, and C be the centre of the screen. If angle S_(1)CS_(2)=theta and lambda is the wavelength, the fringe width will be

In the standard Young's double slit experiment, the intensity on the screen at a point distant 1.25 fringe widths from the central maximum is (assuming slits to be identical)

In the Young's double slit experiment, the spacing between two slits is 0.1mm . If the screen is kept at a distance of 1.0m from the slits and the wavelength of ligth is 5000Å , then the fringe width is

At two point P and Q on screen in Young's double slit experiment, waves from slits S_(1) and S_(2) have a path difference of 0 and (lamda)/(4) respectively. The ratio of intensities at P and Q will be:

In Young's double-slit experiment, the intensity at a point P on the screen is half the maximum intensity in the interference pattern. If the wavelength of light used is lambda and d is the distance between the slits, the angular separation between point P and the center of the screen is