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^@`.

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 diffraction of a crystal with X-ray of wavelength 2.31A^@ gives a first order reflection at 28^@.9′ . What is the distance between the diffracted planes.

Find the equation of the plane which makes intercepts 1,-1 and 2 on the x,y and z axes respectively.

For a short magnetic dipole of magnetic moment 0.5 Am^(2) . Find the magnetic field at a point ( a) 1 m on the axis and from the cetre of the magnet ( dipole ) ( b) 1 m on the equatorial line from the centre ( c) at an angle of 60^(@) w.r. to the line joining the point and the centre of the dipole at distance 1 m.

Calculate the angle at which (a) first order reflection and (b) second order reflection will occur in an X-ray spectrometer when X-ray of wavelength 1.54A^@ are diffracted by the atoms of a crystal, given that the interplanar distance is 4.04A^@ .

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

Find the distance of the point (-6,0,0) from the plane 2x-3y+6z = 2 .

Find the distance of the point (2,3,-5) from the plane r.(i+2j-2k)=9 .