If the radius of anion is `0.20 nm`, the maximum radius of cation which can be filleed in respective voids is correctly matched in

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?

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

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 the bromide ion is 0.182 nm, how large a cation can fit in each of the tetrahedral holes ?

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

Maximum area of a reactangle which can be inscribed in a circle of a given radius R is

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

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