Ferrous oxide has a cubie structure an...

Ferrous oxide has a cubie structure and edge length of the uint cell is ` 5.0Å` . Assuming the density o ferrous oxide to be `3.84 g//cm^(3)` , the no. Of `Fe^(2+)` and `O^(2-)` ions present in each unit cell be : (use `N_(A)= 6xx 10^(23)`):

Similar Questions

Explore conceptually related problems

Ferrous oxide has a cubic structure and eged length of the unit cell is 5.0 A. Assuming the density of ferrous oxide to be 3.84g//cm^(3) the no. of Fe^(2+) and O^(-2) ions present in each unit cell are ("use "N_(A) = 6 xx 10^(23))

Ferrous oxide has a cubic structure and each edge of the unit cell is 5.0 Å. Assuming density of the oxide as 4.0gcm^(-3) , then the number of Fe^(2+)andO^(2-) ions present in each unit cell will be

Ferrous oxide has cubes structure and each edge of the unit cell is 5.0 Å .Assuming of the oxide density as 4.0g//cm^(3) then the number of Fe^(2+) and O^(2) inos present in each unit cell will be

Ferrous oxide (FeO) crystal has a cubic structure and each edge of the unit cell is 5.0 A^(@) Taking density of the oxide as 4.0gcm^(-3) . The number of Fe^(2+) and O^(2-) ions present in each unit cell is:

Ferrous oxide has cubes structure and each edge of the unit cell is 5.0 Å .Assuming of the oxide as 4.0g//cm^(3) then the number of Fe^(2+) and O^(2) inos present in each unit cell will be

Ferrous oxide has a cubie structure and edge length of the uint cell is ` 5.0Å` . Assuming the density o ferrous oxide to be `3.84 g//cm^(3)` , the no. Of `Fe^(2+)` and `O^(2-)` ions present in each unit cell be : (use `N_(A)= 6xx 10^(23)`):

Similar Questions

Recommended Questions