A metallic element has a cubic lattice. Each edge of the unit cell is 2 Å. The density of the metal is `25 g cm^(–3)` . The number of unit cells in 200 g of the metal will be:

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:

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

A metallic element has a cubic lattice. Each edge of the unif cell is 2A^(@) . The density of the metal is 2.5gcm^(-3) . The unif cells in 200g of metal are

A metallic element exists as simple cubic lattice. Each edge of the unit cell is 3Å. The density of the metal is 9 "g cm"^(–3) . How many number of unit cells will be present in 100 g of the metal :-

A metallic element exists as a cubic lattice. Each edge of the unit cell is 2.88 Å . The density of the metal is 7.20 g cm^(-3) . How many unit cells there will be in 100g of the metal?

A metallic element exists as a cubic lattice. Each edge of the unit cell is 2.88 Å . The density of the metal is 7.20 g cm^(-3) . How many unit cells there will be in 100g of the metal?