Consider sunlight incident on a slit of width `10^(4) Å` . The image seen through the slit shall

Consider sunlight incident on a pinhole of width 10^(3)Å . The image of the pinhole seen on a screen shall be

Monochromatic light of wavelength 580 nm is incident on a slit of width 0.30 mm. The screen is 2m from the slit . The width of the central maximum is

Light of wavelength 6000Å is incident on a slit of width 0.30 mm. The screen is placed 2 m from the slit. Find (a) the position of the first dark fringe and (b). The width of the central bright fringe.

Light of wavelength 6328 Å is incident normally on a slit having a width of 0.2 mm . The distance of the screen from the slit is 0.9 m . The angular width of the central maximum is

Calculate the width of central maxima, if light of 9000Å incidents upon a slit of width 1.5 mm. Screen is kept 150 cm away from the slit.

A plane wave of wavelength 6250Å is incident normally on a slit of width 2xx10^(-2) cm The width of the principal maximum of diffraction pattern on a screen at a distance of 50 cm will be

A plane wave of wavelength 6250 Å is incident normally on a slit of width 2 xx 10^(-2) cm. The width of the principal maximum on a screen distant 50 cm will be

Light of wavelength 5000Å is incident over a slit of width 1 mu m . The angular width of central maxima will be

Light of wavelength 5000 Å is incident on a slit of width 0.1 mm. Find out the width of the central bright line on a screen distance 2m from the slit?

Light of wavelength lambda is incident on a slit of width d and distance between screen and slit is D. Then width of maxima and width of slit will be equal if D is ––