Diffraction angle `2 theta` equal to `14.8^@` for a crystal having interplanar distance in the crystal is 0.400 nm when second order diffraction was observed. Calculate the wavelength of X-ray used

Calculate lambda of X-rays which give a diffraction angle 2 theta = 16.8^(@) for crystal, if the interplanar distance in the crystal is 0.2 nm and that only for the first-order diffraction is observed. Given sin 8.40^(@) = 0.146 .

The X-ray of wavelength 1.5A^@ are incident on a crystal having an interatomic distance of 1.6A^@ . Find out the angles at which the first and second order reflection take place.

Find the interplanar distance in a crystal in which a series of planes produce a first order reflection from a copper X-ray tube (lambda = 1.542 A^@) at an angle of 23.2^@ .

A sample of a crystalline solid scatters a beam of X-rays of wavelength 70.93 pm at an angle 2 theta of 14.66^(@) . If this is a second-order reflection (n = 2), calculate the distance between the parallel planers of atoms from which the scattered beam appears to have been reflected.

A parallel bean of monochromatic light is allowed to incident normally on a plane transmission grating having 5000 lines per centimeter. A second order spectral line is found to be diffracted at an angle 30^(@) . Find the wavelength of the light. Data : N=5000 lines/cm =5000xx10^(2) lines/m, m=2 , theta=30^(@) , lambda=?