Advertisements
Advertisements
Question
Derive the relationship between density of substance, its molar mass, and the unit cell edge length. Explain how you will calculate the number of particles, and a number of unit cells in x g of metal.
Advertisements
Solution
- Relationship between density of a substance, its molar mass and the unit cell edge length:
- If edge length of cubic unit cell is ‘a’, then the volume of unit cell is a3.
- Suppose that mass of one particle is ‘m’ and that there are ‘n’ particles per unit cell.
∴ Mass of unit cell = m × n .....(1) - The density of unit cell (ρ), which is same as density of the substance is given by:
`rho = "Mass of unit cell"/"Volume of a unit cell"`
= `("m" xx "n")/"a"^3` = Density of substance …(2) - Molar mass (M) of the substance is given by:
M = mass of one particle × number of particles per mole
= m × NA (NA is Avogadro number)
Therefore, m = `"M"/"N"_"A"` .....(3) - Combining equations (2) and (3), gives
`rho = ("n M")/("a"^3 "N"_"A")` .....(4)
- The density (ρ) and molar mass (M) of metal are related to each other through unit cell parameters as given below:
`rho = "n"/"a"^3 xx "M"/"N"_"A"`
∴ M = ρ`("a"^3 "N"_"A")/"n"`
where, ‘n’ is the number of particles in unit cell and ‘a3’ is the volume of unit cell.
- The number of particles in x g of metallic crystal:
∴ Molar mass, M, contains NA particles.
∴ x g of metal contains `(x"N"_"A")/"M"` particles.
Substitution of M in the above equation gives
Number of particles in ‘x’ g = `(x"N"_"A")/(rho"a"^3"N"_"A"//"n") = "x n"/(rho "a"^3)` - Number of unit cells in x g of metallic crystal:
‘n’ particles correspond to 1 unit cell.
∴ `(x"n")/(rho"a"^3)` particles correspond to `(x"n")/(rho"a"^3) xx 1/"n"` unit cells.
∴ Number of unit cells in ‘x’ g metal = `x/(rho"a"^3)`
RELATED QUESTIONS
An element with molar mass 27 g/mol forms a cubic unit cell with edge length of 405 p.m. If the density of the element is 2.7 g/cm3, what is the nature of the cubic unit cell?
Give the percentage of empty space in bcc lattice.
If the total volume of a simple cubic unit cell is 6.817 × 10-23 cm3, what is the volume occupied by particles in the unit cell?
Find the number of atoms in the fcc unit cell.
The pyranose structure of glucose is ____________.
An element crystallizes in fcc type of unit cell. The volume of one unit cell is 24.99 × 10-24 cm3 and density of the element 7.2 g cm-3, Calculate the number of unit cells in 36 g of pure sample of element?
In bcc unit cell, the edge length (a) and radius of sphere (r) are related to each other by equation:
An element (atomic mass M g/mol) having bcc structure has unit cell edge 400 pm. The density of the element is ____________ g/cm3.
[NA = 6.0 × 1023 atom mol−1)
A metal crystallises in bcc unit cell with edge length 'a'. What will be the volume of one atom?
If the edge of a body-centred unit cell is 360 pm, what will be the approximate radius of the atom present in it? (in pm)
Sodium crystallizes in bcc structure with radius 1.86 × 10−8 cm. What is the length of unit cell of sodium?
An element with density 2.8 g cm−3 forms fcc unit cell having edge length 4 × 10−8 cm. Calculate molar mass of the element.
Copper and silver have ____________ crystal structure.
Consider the following unit cell.
The number of particles (spheres) per unit cell is:
Which of the following formulae is used to find edge length of bee unit cell?
What is the density of iron crystal which crystallizes in body-centred cubic structure with edge length 287 pm? (At. mass of Fe = 56 amu)
The coordination number of atoms in body-centred cubic structure (bcc) is ______.
Gold crystallises into face-centred cubic cells. The edge length of a unit cell is 4.08 × 10–8 cm. Calculate the density of gold. [Molar mass of gold = 197 g mol–1]
An element has a bee structure with unit cell edge length of 288 pm. How many unit cells and number of atoms are present in 200 g of the element?
In face centred cubic unit cell, what is the volume occupied?
Calculate the density of metal with molar mass 56 g mol- 1 that crystallises to form a bcc structure with edge length 288 pm.
At room temperature, polonium Crystallises in a primitive cubic unit cell. If a = 3.36 Å. Calculate the theoretical density of polonium. [It's atomic weight is 209 g/mol.]
The correct sequence of the atomic layers in cubic close packing is ______.
The total number of different primitive unit cells is ______.
What would be the empirical formula of a compound having a unit cell containing A ion shared equally at the corner of the cube and B ion on the centre of faces of the cube?
The number of particles present in Face Centred Cubic Unit cell is/are ______.
