X - ray diffraction studies indicated that the edge length of unit cell of fcc lattice of KF is 537.5 pm. The distance between `K^(+)` and `F^(-)` ions is

In diamond, carbon atoms occupy fcc lattice points as well as alternate tetrahedral voids. If edge length of the unit cell is 356 pm, the diameter of carbon atoms is

A compound 'A B' crystallises in bcc lattice.with unit cell.edge length of '380 pm'. Calculate' (i) -the distance between oppositely charged ions (ii) radius of 'A^+' if radius of 'B^-' is in the lattice '175 pm' (c fits exactly in the cubic void)

The unit cell length of NaCl is observed to be 0.5627 nm by X-ray diffraction studies, the measured density of NaCl is 2.164 g cm^(-3) . Calculate % of missing Na^(+) and Cl^(-) ions.

Calculate the density of NaCl, if the edge length of NaCl unit cell is 564 pm. (Molar mass of NaCl=58.5 g/mol)

Calculate the density of NaCI, if edge length of NaCI unit cell Is 564 pm. [Molar mass of NaCI = [58.5 gmol^-1] .

Calculate the density of NaCl, if edge length of NaCl unit cells is 564pm. [Molar, mass of NaCl =58.5g/mol].

A metal of atomic mass 60u has a body centred cubic lattice. The edge length of the unit cell is 286 pm. Calculate the atomic radius and the density of the metal.

A-scientist was performing X-ray diffraction studies on a crystal having rock salt structure. The molecular mass of the.crystal ls 239 gmol^-1 .The density of the crystal was found to be 12.7 gcm^-3 The scientist is supposed to study only those crystals having edge length below 0.75 mm. Show whether the crystal selected by the scientist was appropriate or not.