Compare the intensities of two points located at respective distance `(beta)/(4)" and "(beta)/(3)` from the central maixma in a interference pattern of YDSE (`beta` is the fringe width).

In a YDSE experiment, the distance between the slits & the screen is 100 cm . For a certain distance between the slits, an interference pattern is observed on the screen with the fringe width 0.25 mm . When the distance between the slits is increased by Deltad=1.2 mm, the fringe width decreased to n=2//3 of the original value. In the final position, a thin glass plate of refractive index 1.5 is kept in front of one of the slits & the shift of central maximum is observed to be 20 fringe width. Find the thickness of the plate & wavelength of the incident light.

Angular width (beta) of central maximum of a diffraction pattern on a single slit does not depend upon

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

The distance of a point (alpha, beta) from the origin is ....

A fringe width of a certain interference pattern is beta=0.002 cm What is the distance of 5th dark fringe centre?

Consider an YDSE that has different slit width. As a result, amplitude of waves from two slits are A and 2A, respectively. If I_(0) be the maximum intensity of the interference pattern, then intensity of the pattern at a point where phase difference between waves is phi is

In YDSE, the slits have different widths. As a result, amplitude of waves from slits are A and 2A respectively. If I_(0) be the maximum intensity of the intensity of the interference pattern then the intensity of the pattern at a point where the phase difference between waves is phi is given by (I_(0))/(P)(5+4cos phi) . Where P is in in integer. Find the value of P ?

In YDSE of equal width slits, if intensity at the center of screen is I_(0) , then intensity at a distance of beta // 4 from the central maxima is

A beam of light consists of two wavelengths, 6300Å and 5600Å . This beam of light is used to obtain an interference pattern in YDSE. If 4^("th") bright fringe of 6300Å coincides with the n^("th") dark fringe of 5600Å from the central line, then find the value of n.