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 parallel to the plane 2x-2y-z-3=0 and situated at a distance of 7 units from it.

Find the point on the y-axis which is equidistant from the points (2,3) and (-1,2).

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

The focal length of a concave mirror is 30 cm. An object is placed at a distance of 45 cm in front of the mirror. A plane mirror is placed perpendicularly on the principal axis of the concave mirror in such a way that the object is situated in between the two mirrors. Light rays from the object at first are reflection from the concave mirror and then from the plane mirror. As a result the final image coincides with the object. What is the distance between the two mirros?

Find the equation of the circle having center at (2,3) and which touches x+y=1 .

Find the equation to the locus of a point whose distance from YZ plane-is twice the distance from the point (-2, 1, -1).

Find the distance of the plane 2x-y+2z+1=0 from the origin.