In a unit cell, atoms (A) are present at...

In a unit cell, atoms `(A)` are present at all corner lattices, `(B)` are present at alternate faces and all edge centres. Atoms `(C)` are present at face centres left from `(B)` and one at each body diagonal at disntance of `1//4th` of body diagonal from corner.
A tetrad axis is passed from the given unit cell and all the atoms touching the axis are removed. The possible formula of the compound left is

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In a unit cell, atoms (A) are present at all corner lattices, (B) are present at alternate faces and all edge centres. Atoms (C) are present at face centres left from (B) and one at each body diagonal at disntance of 1//4th of body diagonal from corner. Formula of given solid is

In a unit cell, atoms (A) are present at all corner lattices, (B) are present at alternate faces and all edge centres. Atoms (C) are present at face centres left from (B) and one at each body diagonal at disntance of 1//4th of body diagonal from corner. Formula of given solid is

In a unit cell, atoms (A) are present at all corner lattices, (B) are present at alternate faces and all edge centres. Atoms (C) are present at face centres left from (B) and one at each body diagonal at disntance of 1//4th of body diagonal from corner. Formula of given solid is

In a unit cell, atoms (A) are present at all corner lattices, (B) are present at alternate faces and all edge centres. Atoms (C) are present at face centres left from (B) and one at each body diagonal at disntance of 1//4th of body diagonal from corner. Total fraction of voids occupied are

In a unit cell, atoms (A) are present at all corner lattices, (B) are present at alternate faces and all edge centres. Atoms (C) are present at face centres left from (B) and one at each body diagonal at disntance of 1//4th of body diagonal from corner. Total fraction of voids occupied are

In a cubic unit cell, A atoms are present on alternate corners, B atoms are present on alternate faces and C atoms are present on alternate edges and body centre of the cube. The simplest formula of compound is :

Number of atoms per unit cell, if atoms are present at the corner of unit cell and 2 atoms at each body diagonal

In a cubic, A atoms are present on alternative corners, B atoms are present on alternate faces, and C atoms are present on alternalte edges and body centred of the cube. The simplest formula of the compound is

In a cubic, A atoms are present on alternative corners, B atoms are present on alternate faces, and C atoms are present on alternalte edges and body centred of the cube. The simplest formula of the compound is

In a cubic, A atoms are present on alternative corners, B atoms are present on alternate faces, and C atoms are present on alternalte edges and body centred of the cube. The simplest formula of the compound is

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