In the closed packing of atoms A `("radius":r_(a))`, the radius of atom B that can be fitted into tetrahedral void is:

For the closest packing of atoms A (radius, r_(A) ), the maximum radius of atom B that can be fitted into octahedral void is

In closest packing of A type of atoms (radius r_(A) ) the radius of atom B that can be fitted into octabedral voids is

A unit cell is obtained by closed packing layers of atoms in ABAB …… pattern. The total number of tetrahedral and octahedral voids in the unit cell are respectively

If the radius of Br^(-) ion is 0.20 nn, how large can a cation be fit in its tetrahedral holes ?

If the radius of Br^(-) ion is 0.182 nn, how large can a cation be fit in its tetrahedral holes ?

Br^(-) ions form close packed structure. If the radius of Br^(-) ion is 195 p, calculate the radius of the cation that just fits in the tetrahedral hole. Can a cation A^(+) having a radius of 82 pm be slipped into the octahedral hole of the crystal A^(+) Br^(-) ?

The radius of the bromide ion is 0.182 nm. According to the radius ratio rule the largest cation that can fit in tetrahedral hole has radius

If the radius of a Chloride ion is 0.154 nm, then what is the maximum size of a cation that can fit in each of its octahedral voids?

The limiting radius ratio for tetrahedral voids has the range:

In a close packed structure of mixed oxides , the lattice is composed of oxide ions , one eighth of tetrahedral voids are occupied by divalent cations while one half of octahedral voids are occupied by trivalent cations . What is the formula of the oxide ?