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Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry PDF Download

Calculation of number of particles in a unit cell (Z)

In a crystal atoms located at the corner and face centre of a unit cell are shared by other cells and opnly a portion of such an atom actually lies within a given unit cell.

(i) A point that lies at the corner of a unit cell is share among eight unit cells and therefore, only one eighth of each such point lies within the given unit cell.

Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

(ii) A point along an edge is shared by four unit cells and only one-fourth of it lies within any one cell.

Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

(iii) A face-centred point is shared by two unit cells and only one half of it is present in a given unit cell.

Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

(iv) A body-centred point lies entirely within the unit cell and contributes one complete point to the cell

Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

Type of Lattice pointContribution to one unit cell
Corner1/8
Edge¼
Face-center½
Body centre1

 

Calculate the number of particles in a unit cell

Type of unit cellLattice points at cornerLattice points at face-centered Lattice points at body centeredZ = no. of lattice points per unit cell
SSC800Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry
BCC801Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry
FCC860Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

 

Relation between edge length of unit cell and radius of atoms 

(i) Simple cubic or Primitive 

(a) edge length of unit cell a = 2r (b) atomic radius r = a/2

Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

(ii) Body centre cubic 

(a) edge length of unit cell = Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

 

(b) atomic radius, r = Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

(iii) Face centre cubic/cubic close packed

(a) edge length of unit cell a = Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

 

(b) atomic radius r = Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

 

Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

 

Illustration: A solid has a cubic structure in which X atoms are located at the corners of the cube, Y atoms are at the cube centres and O atoms are at the edge centres. What is the formula of the compound:

Solution: Atoms of X are present at all the eight corners of the cube. Therefore, each atom of X at the corner makes 1/8 contribution towards the unit cell.
Number of atoms of X per unit cell = Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

Y atom is present at the body centre, thus contribution of Y towards unit cell = 1 × 1 = 1
O atom is present at each of the edge centre (number of edges of cube = 12)
And each O atom present at edge centre will make ¼ contribution towards the unit cell.

The number of O atoms per unit cell =  Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

The formula of the compound is, therefore XYO3

 

Packing Fraction

Fraction of volume occupied by atoms in a cube

Packing Fraction = Volume of atoms in the cube/Total volume of cube

Packing Fraction, Density & No. of Particles in a Unit Cell | Physical ChemistryPacking Fraction, Density & No. of Particles in a Unit Cell | Physical ChemistryPacking Fraction, Density & No. of Particles in a Unit Cell | Physical ChemistryPacking Fraction, Density & No. of Particles in a Unit Cell | Physical ChemistryPacking Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

 

Density of unit cell

Density of unit cell (and hence density of a crystal)

Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

Where a is edge of unit cell in pm
NA = Avogadro number (6.02 × 1023)
M = Atomic mass of element or formula mass of the compound
Z = No. Of toms present per unit cell or formula units e.g. for fcc, Z = 4, for bcc, Z = 2, for simple cubic, Z = 1

Packing Fraction, Density & No. of Particles in a Unit Cell | Physical ChemistryPacking Fraction, Density & No. of Particles in a Unit Cell | Physical ChemistryPacking Fraction, Density & No. of Particles in a Unit Cell | Physical ChemistryPacking Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

 

Illustration: Gold has a close-packed structure which can be viewed as-spheres occupying 0.74 of the total volume. If the density of gold is 19.3 g/cc, calculate the apparent radius of a gold ion in the solid

Solution: Gold has s close-packed structure with a packing fraction value of 0.74. This shows that it has a face-centred cubic cell. The number of ions in a face-centred unit cell is 4.
Now density = Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

Or 19.3 = Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

 

In a face-centred cubic cell.
Radius Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry Packing Fraction, Density & No. of Particles in a Unit Cell | Physical Chemistry

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FAQs on Packing Fraction, Density & No. of Particles in a Unit Cell - Physical Chemistry

1. What is the packing fraction of a unit cell?
Ans. The packing fraction of a unit cell is the ratio of the total volume occupied by the particles in the unit cell to the total volume of the unit cell. It represents how efficiently the particles are packed within the unit cell.
2. How is the density of a unit cell calculated?
Ans. The density of a unit cell is calculated by dividing the total mass of the particles in the unit cell by the total volume of the unit cell. It gives an indication of how closely packed the particles are within the unit cell.
3. What factors affect the packing fraction of a unit cell?
Ans. The packing fraction of a unit cell is affected by factors such as the shape and size of the particles, the arrangement of the particles within the unit cell, and any void spaces present. These factors determine how efficiently the particles can be packed together.
4. How does the packing fraction impact the density of a material?
Ans. The packing fraction directly affects the density of a material. A higher packing fraction indicates a higher density, as more particles are packed into a given volume. Similarly, a lower packing fraction results in a lower density, as there are fewer particles in the same volume.
5. How does the number of particles in a unit cell relate to the packing fraction and density?
Ans. The number of particles in a unit cell influences both the packing fraction and the density. A higher number of particles in the unit cell can lead to a higher packing fraction and density, as there are more particles occupying the available space. Conversely, a lower number of particles will result in a lower packing fraction and density.
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