A metal of density `7.5 xx 10^(3) kg m^(-3)` has an fcc crystal structure with lattice parameter `a = 400 pm`. Calculater the number of unit cells present in `0.015 kg` of metal.

An element 'X' (At. Mass = 40 g mol^(-1) ) having f.c.c structure has unit cell edge length of 400 pm . Calculate the density of 'X' and the number of unit cells in 4 g of 'X' . (N_(A) = 6.022 xx 10^(23) mol^(-1)) .

A metal crystallizes in a ccp structure. Its metallic radius is 141.5 pm. The number of unit cells in 64 cm^(3) of the metal are

The density and edge length values for a crystalline element with fcc lattice are 10 g cm^(-3) and 400 pm respectively. The number of unit cells in 32 g of this crystal is

If a metal crystallises in a face-centred cubic structure with metallic radius of 25 pm, the number of unit cells in 1 cm^(3) of lattice is :

The metal calcium crystallises in fcc unit cell with a = 600 pm. Calculate the density of the metal if it contains 0.2% Schottky defects.

An element crystallises in the fcc crystal lattice and has a density of 10 g cm^(-3) with unit cell edge length of 100 pm . Calculate number of atoms present in 1 g of crystal.