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

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.

Wave property of electron implies that they will show diffraction effected . Davisson and Germer demonstrated this by diffracting electron from crystals . The law governing the diffraction from a crystals is obtained by requiring that electron waves reflected from the planes of atoms in a crystal inter fere constructiely If a strong diffraction peak is observed when electrons are incident at an angle i from the normal to the crystal planes with distance d between them (see fig) de Brogle wavelength lambda_(dB) of electrons can be calculated by the relationship (n is an intenger)

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^@ .

What will be the diffraction angle of first order maxima in diffraction obtained due to light of wavelength 55nm and width of slit 0.55 mm ?

Red light of wavelength 6500 Å from a distant source falls on a slit 0.50 mm wide. Calculate the distance between first two dark bands on each side of central bright band in the diffraction pattern observed on a screen placed 1.8 m from the slit.

An electric dipole is prepared by taking two electric charges of 2 xx 10^(-8) C separated by distance 2 mm. This dipole is kept near a line charge distribution having density 4 xx 10^(-4) C/m in such a way that the negative electric charge of the dipole is at a distance 2 cm from the wire as shown in the figure. Calculate the force acting on the dipole. [Take k=1/(4piepsilon_(0)) = 9 xx 10^(9) Nm^(2)C^(-2) ]

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.

What will be angle of first order maxima obtained by Fraunhoffer diffraction by single slit of width 0.50 mm , using light of wavelength 500 nm

State two conditions to obtain sustained interference of light. In young's double slit experiment, using light of wavelength 400 nm, interference fringes of width X are obtained. The wavelength of light is increased to 600 nm and the separation between the slits is halved. if one wants the observed fringe width on the screen to be the same in the two cases, find the ratio of the distance between the screen and the plane of the slits in the two arrangements.