In a Young's double-slit expriment using identical slits, the intensity at a bright fringe is I_(0). If one of the slits is now covered, the intensity at any point on the screen will be

In a YDSE with identical slits, the intensity of the central bright fringe is I_(0) . If one of the slits is covered, the intensity at the same point is

In a Young's double-slit experiment using identical slits, when one slit is used, the total energy reaching the screen is E_(0) and the intensity of light at any point on the screen is I_(0) . When both slits are usedm and fringes are formed on the screen, the total energy reaching the screen is E and the maximum intensity on the screen is I. Then,

In a Young's double slit experiment, using unequal slit widths, the intensity at a point midway between a bright and dark fringes is 4I. If one slit is covered by an opaque film, intensity at that point becomes 2I. If the other is covered instead, then the intensity at that point is

In the Young's double slit experiment the central maxima is observed to be I_(0) . If one of the slits is covered, then intensity at the central maxima will become-

In a Young's double-slit interference pattern, the intensity of the central fringe at P =I_(0) . When one slit width is reduced to half, the intensity at P will be

In a Young's double-slit experiment, the central bright fringe can be identified

The slits in a Young's double slit experiemnt have equal width and the source is placed symmetrically with respect to the slits. The Intensty ast the central fringe is I_0 . If one of the slits is closed, the intensit at this point will

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

In the Young's double slit experiment, the ratio of intensities of bright and dark fringes is 9. this means that