In young's double-slit experiment set up, sources S of wavelength 50 nm illumiantes two slits `S_(1)` and `S_(2)` which act as two coherent sources. The sources S oscillates about its own position according to the equation `y = 0.5 sin pi t`, where y is in nm and t in seconds. The minimum value of time t for which the intensity at point P on the screen exaclty in front of the upper slit becomes minimum is

In the above problem, minimum value of t for which the intensity at point P on the screen exactly in front of the upper slit becomes maximum.

In a Young's double-slit experiment set up, source S of wavelength 6000 Å illuminates two slits S_(1) and S_(2) which act two coherent sources. The sources S oscillates about its shown position according to the eqation y = 1 + cos pi t , where y is in millimeter and t in second. At t = 2 s, the position of central maxima is

In a Young's double-slit experiment set up, source S of wavelength 6000 Å illuminates two slits S_(1) and S_(2) which act two coherent sources. The sources S oscillates about its shown position according to the eqation y = 1 + cos pi t , where y is in millimeter and t in second. At t = 0 , fringe width is beta_(1) , and at t = 2 s, width of figure is beta_(2) . Then

In Young.s double slit experiment the band width is minimum for the colour

In Young's double slit experiment, the ratio of maximum and minimum intensities in the fringe system is 9:1 the ratio of amplitudes of coherent sources is

In Young.s double slit experiment, blue-green light of wavelength 500nm is used. The slits are 1.20mm apart, and the viewing screen is 5.40 m away from the slits. What is the fringe width.

In a Young’s double slit experiment, the source illuminating the slits is changed from blue to violet. The width of the fringes

In young's double slit experiment, distance between the slit S_1 and S_2 is d and the distance between slit and screen is D . Then longest wavelength that will be missing on the screen in front of S_1 is

In Young.s double slit experiment intensity at a point is (1"/"4) of the maximum intensity. Angular position of this points is

In a young's doule slits experiment, a monochromatic source of wavelength lambda is used to illuminate the two slits S_(1) and S_(2) . The slitss S_(1) and S_(2) are identical and source S is placed symmetrically as shown. interference pattern is observed on a screen at a distance D from the centre of slit. The distance between the slits is d. If the source is moved up by a very small distance y_(0) , the central maxima will shift