In a Fresnel biprism experiment, the two positions of lens give separation between the slits as 16cm and 9cm respectively. What is the actual distance of separation?

Young’s double slit experiment is performed with light of wavelength 550 nm . The separation between the slits is 1.10 mm and screen is placed at distance of 1 m . What is the distance between the consecutive bright or dark fringes

In Fresnel's biprism experiment, when the distance between the slit aperture and eye is increased, then distance between the fringes

In a biprism experiment, the slit is illuminated by a light of wavelength 5000Å . The distane between the slit and wyepieceis 1,. If the distance between the two virtual soruces is 0.25 cm, then distance between fifth band on one side and the sixth dark band on the other side of the central bright band will be

In a biprism experiment, when a convex lens was placed between the biprism and eyepiece at a distance of 30cm from the slit, the virtual images of the slits are found to be separated by 7mm . If the distance between the slit and biprism is 10cm and between the biprism and eyepiece is 80cm , find the linear magnification of the image.

In a double slit experiment to find the separation between slits by displacement method, the separations of images of slits were found to be 16mm and 9mm respectively. The actual separation between slits will be

In a biprism experiment, when a convex lens is placed between the biprism and eyepiece at a distance of 30 cm from the slit, the virtual images of the slits are 7mm apart. If the distance between the slit eyepiece is 90 cm, find the linear magnification of the image.

In a biprism experiment, the angular width of fringes was theta=2 '. Calculate the separation between the slits if the wavelength of the incident light was lambda = 700 nm .

In a biprism experiment, the distance (d) between the two sources is doubled and the distance between the slit and the eye piece is also doubled. Then the width of the fringe