In the YDSE conducted with white light (4000Å-7000Å), consider a point `P_(1) on the screen at` `y_(1)` = 0.2mm. Determine the wavelengths which form maxima at these points :

Two monochromatic coherent sources of wavelength 5000 Å are placed along the line normal to the screen as shown in the figure. (a) Determine the condition for maxima, at the point P. (b)Find the order of the central bright fringe if d = 0.5 mm, D = 1 m.

If the wavelength of light is 4000 Å , then the number of waves in 1 mm length will be

In a YDSE using monochromatic visible light, the distance between the plate of slits and the screen is 1.7 m. At point P on the screen which is directly in front of the upper slit, maximum path is observed. Now, the screen is moved 50 cm closer to the plane of slits. Point P now lies between third and fouth minima above the central maxima and the intensity at P in one-fourth of the maxima intensity on the screen. ltbr. Find the wavelength of light if the separation of slits is 2 mm.

Statement-1: if white light is used in YDSE, then the central bright fringe will be white. Statement-2: In case of white light used in YDSE all the wavelengths produce their zero order maxima at the same position.

A Young's double slit experiment is conducted with slit separation 10mm, where the screen is 2m away from the slits. If wavelength of light used is 6000 Å , answer the following If the wavelength is increased by 1000 Å , and the whole apparatus is placed in water of refractive index 4//3 , the new fringe width in mm is

A Young's double slit experiment is conducted with slit separation 10mm, where the screen is 2m away from the slits. If wavelength of light used is 6000 Å , answer the following Fringe width in mm is

A beam of light consisting of two wavelengths 6500Å and 5200Å is used to obtain interference fringes in a young's double slit experiment the distanece between the slits is 2mm and the distance between the plane of the slits and screen is 120 cm. (a). Find the distance of the third bright fringe on the screen from the central maxima for the wavelength 6500Å (b). What is the least distance from the central maxima where the bright fringes due to both the wave lengths coincide?

A point P is situated at 40.1 cm and 40.2 cm away from two coherent sources. If the wavelength of light used is 5000 Å, then the point P