White coherent light `(400 nm-700 nm)` is sent through the slits of a YDSE. `D=0.5 mm`, D=50 cm. There is a hole in the screen at a point `1.0 mm` away (along the width of the fringes) from the central line.
(a) Which wavelength will be absent in the light coming from the hole?
(b) Which wavelength(s) will have a strong intensity?

White coherent light (400 nm-700 nm) is sent through the slits of a Youngs double slit experiment. The separation between the slits is 05 mm and the screen is 50 cm away from the slits. There is a hole in the screen at a point 1.0 mm away (along the width of the fringes) from the central line. (a) Which wavelength(s) will be absent in the light coming from the hole ? (b) which wavelength(s) will have a strong intensity ?

In Young's double slit experiment shown in figure S1 and S2 are coherent sources and S is the screen having a hole at a point 1.0 mm away from the central line. White light (400 to 700nm) is sent through the slits. Which wavelength passing through the hole has strong intensity?

A double slit of separation 1.5 mm is illuminated by white light (between 4000 and 8000 Å ). On a screen 120 cm away colored interference pattern is formed. If a pinhole is made on this screen at a distance of 3.0 mm from the central white fringe, some wavelengths will be absent in the transimitted light. Find the second longest wavelength (in Å ) which will be absent in the transmitted light.

In young's double slit experiment, the two slits are 0.2 mm apart. The fringes for light of wavelength 6000Å are found on the screen 80 cm away. The distance of fifth dark fringe, from the central fringe, will be

In Young's double slit experiment, the distance between the two slits is 0.1 mm, the distance between the screen and the slit is 100 cm. if the width of the fringe is 5 mm, then the wavelength of monochromatic light used is

With two slits spaced 0.2 mm apart and a screen at a distance of 1 m, the third bright fringe is found to be at 7.5 mm from the central fringe. The wavelength of light used is

Two slits are made on an opaque surface at a separation of 1 mm from each other. A screen is placed at a distance 1 m from the plane of the slits. A small hole is made on the screen at a distance 1 mm from the centre of the screen as shown in the figure. If we observe the light coming out from hole on the other side, then which wavelengths in the visible region will be absent and which will show strong presence ? Wavelength of visible light ranges from 400 nm to 700 nm.

Light of wavelength 580 nm is incident on a slit having a width of 0.300 nm The viewing screen is 2.00 m from the slit. Find the positions of the first dark fringe and the width of the central bright fringe.

Light of wavelength 500 nm is incident on two slits separated by 1 mm in YDSE. What is the width of each dark band if the screen is 1 metre away from the slits ?