A compound XY crystallizes in BCC lattice with unit cell-edge length of 480 pm, if the radius of Y– is 225 pm, then the radius of `X^(+)` is:

NH_(4) X1 crystallizes in bcc lattice with edge length 383 pm. If the radius of NH_(4)^(+) ion is 154 pm ,calculate the radius of halide (X^(-) ) .

The metal M crystallizes in a body cantered lattice with cell edge 40 pm . The atomic radius of M is .

A compound AB crystallises in bcc lattice with the unit cell edge length of 380 pm . Calculate (i) The distance between oppositely charged Ions in the lattic. (ii)Radius of B^(−) if the radius of A^(+) is 190 pm.

A compound AB crystallizes in bcc lattice with unit edge length of 380 pm. Calculate (i)The distance between oppositely charged ions in the lattice. (ii)Radius of A^+ if radius of B is 175 pm

The metal M crystallizes in a body centered lattice with cell edge. 400 pm. The atomic radius of M is

A compound AB crystallises in the b.c.c lattice with unit cell edge length of 390 pm. Calculate (a) the distance between the oppsitely charged ions in the lattice. (b) the radius of A^(+) ion if radius of B^(-) ion is 175 pm.

Copper crystallises in face-centred cubic lattice with a unit cell length of 361 pm. What is the radius of copper atom in pm?

If an atom crystallizes in bcc lattice with r=4 Å then the edge length will be

A metal crystallizes in a body-centred cubic lattice with the unit cell length 320 pm. The radius of the metal atom (in pm) will be

An ionic solid A^(o+)B^(Θ) crystallizes as an fcc structure. If the edge length of cell is 508 pm and the radius of anion is 144 pm , the radius of cation is