Silver crystallizes in fcc lattic. If the edge length of the cell is `4.07 xx 10^(-8) cm` and density is `10.5 g cm^(-3)`. Calculate the atomic mass of silver.

A metal crystallises in FCC lattice. If edge length of the cell is 4xx10^(-8) cm and density is 10.5 g cm^(-3) then the atomic mass of metal is

Silver crystallises in a fcc lattice. The edge length of its unit is 4.077xx10^(-8)cm and its density is 10.5g cm^(-3) . Claculate on this basis of the atomic mass of silver (N_(A)=6.02xx10^(23) "mol"^(-1))

An element E crystallizes in body centred cubic structure. If the edge length of the cell is 1.469 xx 10^(-10)m and the density is 19.3 g cm^(-3) , calculate the atomic mass of this element. Also calculate the radius of an atom of the element.

Silver crystallises in fcc latice. If edge length of the unit cell is 4.077xx10^(-8)cm , then calculate the radius of silver atom.

A element cystallizes in fcc lattice and edge length of unit cell is 400 pm. If density of unit cell is 11.2 g cm^(-3) , then atomic mass of the element is