Experimentally it was found that a metal oxide has formula `M_(0.98)O`. Metal M , is present as `M^(2+)` and `M^(3+)` in it oxide. Fraction of the metal which exists as `M^(3+)` would be

Experimentally it was found that a metal oxide has formula M_(0.98)O . Metal M is present as M^(2+) and M^(3+) in its oxide ,Fraction of the metal which exists as M^(3+) would be

Experimentally it was found that a metal oxide has formula M_(0.98)O . Metal M, present as M^(2+) and M^(3+) in its oxide. Fraction of the metal which exists as M^(3+) would be

Experimentally it was found that a metal oxide in formula M_(0.98)O . Metal M is present as M^(2+) and M^(3+) in its oxide ,Fraction of the metal which exists as M^(3+) would be

Analysis shows that a metal oxide has empirical formula M_(0.98)O_(1.00) . Calculate % of M^(+2) and M^(+3) ions in the sample.

Analysis shows that a metal oxide has the empirical formula M_(0.96)O_(1.00) . Calculate the percentage of M^(2+) and M^(3+) ions in the sample.

Analysis shows that a metal oxide has the empirical formula M_(0.96) O_(1.00) . Calculate the percentage of M^(2+) and M^(3+) ions in the sample.

A metal oxide has empirical formula M_(0.96)O_(1.00) What will be the percentage of M^(2+) ion in the crystal ?

Iron oxide has formula Fe_"0.94"O. What fraction of Fe exists as Fe^(+3) ?

Formula of metal oxide with metal deficiency defect in its crystal is A_(0.8)O . The crystal contains A^(2+) and A^(3+) ions. The fraction of metal existing as A^(2+) ions in the crystal is -

Compound of a metal A is M_2O_3 , the formula of its halide is