Ferrous oxide has cubes structure and each edge of the unit cell is `5.0 Å` .Assuming of the oxide as `4.0g//cm^(3)` then the number of `Fe^(2+) and O^(2)` inos present in each unit cell will be

Ferrous oxide has a cubie structure and edge length of the uint cell is 5.0Å . Assuming the density o ferrous oxide to be 3.84 g//cm^(3) , the no. Of Fe^(2+) and O^(2-) ions present in each unit cell be : (use N_(A)= 6xx 10^(23) ):

The number of tetrahedral voids present on each body diagonal ccp unit cell is

A metal has bcc structure and the edge length of its unit cell is 3.04overset(@)(A) . The volume of the unit cell in cm^(3) will be

Aluminium has fcc structure. The length of the unit cell is 409 pm. If the density of the metal is 2.7 g" " cm^(-3) , the molar mass of Al atom is

A metallic element has a cubic lattice. Each edge of the unit cell is 2 Å. The density of the metal is 2.5 g cm^(–3) . The number of unit cells in 200 g of the metal will be:

The edge length of NaCl unit cell is 564 pm. What is the density of NaCl in g/ cm^(3) ?

Tungsten has bcc lattice. Each edge of the unit cell is 316 pm and the density of the metal is 19.35g cm^(-3) . How many atoms are present in 50 g of this element?

A metallic element crystallizes in simple cubic lattice. Each edge length of the unit cell is 3 Å.The density of the element is 8g//c c . Number of unit cells in 108 g of metal is

An element crystallizes into structure which may be described by a cube type of unit cell having one atom on each corner of the cube and two atoms on one of its diagonals. If the volume of this unit cell is 24 xx 10^(-24) cm^3 and density of the element is 7.2 g cm^(-3) , calculate the number of atoms present in 200 g of the element.

The unit cell of a binary compound of A and B has ccp structure with A atoms occupying the corners and B atoms occupying the centres of each face of the unit cell. If during crystallisation of the alloy, in the unit cell 4 atoms of A are missing, the overall composition per unit cell is :