In a face centred lattice with all the positions occupied by A atoms the body centred octahedral hole in it is occupied by an atom B of an appropriate size for such a crystal, calculate the void space per unit volume of unit cell. Also predict the formula of the compound.

Calculate the void space in a primitive unit cell and also the fraction of the total volume occupied .

The fraction of volume occupied by atoms in a body centered cubic unit cell is:

Percentage of tetrahedral voids occupied by carbon atoms per unit cell of diamond is

Number of octahedral void(s) occupied by carbon atoms in the unit cell of diamond is

In a cubic unit cell, seven of the eight corners are occupied by atoms A and centres of faces are occupied by atoms B. The general formula of the compound is:

The fraction of volume occupied by atoms in a face centered cubic unit cell is:

Calculate the number of atoms in a face centred cubic unit cell.

In a solid between A and B atoms of A are arranged in ccp array and atoms of B occupy all the octahedral voids and half of the tetrahedral voids. The formula of the compound is

In a hypothetical solid C atoms form C C P lattice with A atoms occupying all the Tetrahedral Voids and B atoms occupying all the octahedral voids A and B atoms are of the appropriate size such that there is no distortions in the CCP lattice. Now if a plane is cut ( as shown ) then the section would like

Atoms A, B, C and D are present at corners, face centres, body centres and edge centres and respectively in a cubic unit cell. Find the formula of compound.