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 ?

White coheral light (400 nm 700 nm ) is sent through the slit of a Young.s double slit experiment. The separation between the slits is 0.5 mm and the screen is 50 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. Which wavelengths (s) will be absent in the light coming from the hole ?

White coherent light (400 nm- 700 nm) is sent through the slits of a young.s double slit experiment. The separation between the slits is 0.5 mm and the screen is 50 cm away from the slits. There is a hole in the screen at a point 1 mm from the centre. In the above problem which wavelength have a strong intensity at the hole?

In this problem , which wavelength (s) will have a strong intensity if light have wavelength 400 nm-700 nm?

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?