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.

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.

In the ellipse 9x^(2)-5y^(2)=45 the distance between the foci is

In the ellipse 9x^(2) + 5y^(2) =45 , the distance between the foci is

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^@ .

The electrostatic force on a small sphere of charge 0.4 mu c due to another small sphere of charge -0.8 mu c in air is 0.2 N (a) What is the distance between the two spheres (b) what is the force on the second sphere due to the first

In Young's double slit experiment while using a source of light of wavelength 4500 A, the fringe width is 5mm. If the distance between the screen and the plane of the slits is reduced to half, what should be the wavelength of light to get fringe width 4mm?