An element 'X' crystallises as face centred cubic lattice with edge length of 460 pm. The density of the element X, when molar mass of X atom is 60 g `mol^(-1)` is

An element crystallising in body centred cublic lattice has edge length of 500 pm. If the density is 4 g cm^(-3) , the atomic mass of the element ("in g mol"^(-1)) is (consider N_(A)=6xx10^(23))

An element crystallising in body centred cublic lattice has edge length of 500 pm. If the density is 4 g cm^(-3) , the atomic mass of the element ("in g mol"^(-1)) is (consider N_(A)=6xx10^(23))

An element crystallising in body centred cublic lattice has edge length of 500 pm. If the density is 4 g cm^(-3) , the atomic mass of the element ("in g mol"^(-1)) is (consider N_(A)=6xx10^(23))

An element crystallising in body centred cublic lattice has edge length of 500 pm. If the density is 4 g cm^(-3) , the atomic mass of the element ("in g mol"^(-1)) is (consider N_(A)=6xx10^(23))

A metal crystallises as body centred cubic lattice with the edge length of unit cell equal to 0.304 nm. If the molar mass of the metal is 50.3 g mol^(−1) , its density (in g cm^(−3) ) is :

A metal crystallises as body centred cubic lattice with the edge length of unit cell equal to 0.304 um. If the molar mass of the metal is 50.3 g mol^(-1),its density is

A metal crystallises as body centred cubic lattice with the edge length of unit cell equal to 0.304 nm. If the molar mass of the metal is 50.3g "mol"^(-1) , its density is

An element crystallising in body centred cubic lattice has an edge length of 500 pm. If its density is 4gcm^-3 , the atomic mass of the element is