Orange light of wavelength `6000xx10^(-10)m` illuminates a single slit of width `0.6xx10^(-4)m`. The maximum possible number of diffraction minima produced on both sides of the central maximum is __________.

Light of wavelength 5900 xx 10^(-10)m falls normally on a slit of width 11.8 xx 10^(-7)m . The resulting diffraction pattern is received on a screen. The angular position of the first minimum is.

A parallel beam of light of wavelength 6000Å gets diffracted by a single slit of width 0.3 mm. The angular position of the first minima of diffracted light is :

Light of wavelength 6 xx10^(-5) cm falls on screen at a distance of 100 cm from a narrow slit. Find the width of the slit if the first minima lies 1mm on either side of the central maximum

A slit of width d is placed in front of a l ens of focal length 0.5m and is illuminated normally with light of wavelength 5.89xx10^(-7)m . The first diffraction minima on either side of the central diffraction maximum are separated by 2xx10^(-3)m . The width d of the slit is "_________" m.

lambda=6000xx10^(-10) m and width: 0.6xx10^(-4) m . Find height of highest order of minima on both side central maxima.

Monochromatic light of a wavelength 650 nm falls normally on a slit of width 13xx10^(-4) cm and the resulting Fraunhofer diffraction is obtained on a screen. Find the angular width of the central maxima.

Visible light of wavelength 6000 xx 10 ^( - 8 ) cm falls normally on a single slit and produces a diffraction pattern. It is found that the second diffraction minimum is at 60 ^(@) from the central maximum. If the first minimum is produced at theta _ 1 , then theta _ 1 is close to :

Light wavelength 6000 Å is incident normally on a slit of width 24xx10^(-5) cm. find out the angular position of seconds minimum from central maximum?

Monochromatic light of a wavelength 650 nm falls normally on a slit of width 1:3 xx 10^(-4) cm and the resulting Fraunhofer diffraction is obtained on a screen. Find the angular width of the central maxima.

Yellow light (lambda=600 Å) illuminates a single slit of width 1xx10^(-4) m. Calculate (i) the distance between the two dark lines on either side of the central maxima, when the diffraction patterns is viewed on a screen kept 1.5 m away from the slit, (ii) the angular speed of the final diffraction minima.