An element occurs in `b c c` structure with cell edge of 288 `p m`.Its density is 7.2 `g cm^-3`. calculate the atomic mass of the element.

An element occurs in bcc structure with cell edge 300 pm. The density of the element is 5.2 g cm^(-3) . How many atoms of the element does 200 g of the element contain?

An element has a body centred cubic (bcc) structure with a cell edge of 288 pm. The density of the element is 7.2 g//cm^(3) . How many atoms are present in 208 g of the element?

An element occurs in bcc structure. It has a cell edge length of 250 pm. Calculate the molar mass if its density is 8.0 g cm^(-3) . Also calculate the radius of an atom of this element.

An element crystallises in a bcc lattice with cell edge of 500 pm. The density of the element is 7.5 gm^(-3) . How many atoms are present in 300 g of the element ?

An element with density 11.2 g cm^(-3) forms a fcc lattice with edge length of 4 xx 10^(-8) cm. Calculate the atomic mass of the element. (Given, N_(A)=6.022 xx 10^(23)"mol"^(-1) )

Silver crystallises in fcc lattice. If edge length of the cell is 4.07xx10^(-8) and density is 10.5 g cm^(-3) . Calculate the atomic mass of silver.

A fcc element (atomic mass =60) has a cell edge of 400pm. Its density is :