Well, N2O5 doesn’t form N4O10 because nitrogen (N) and oxygen (O) atoms have different tendencies to bond with each other. When nitrogen and oxygen atoms bond together, they tend to form molecules with certain ratios of atoms. For example, nitrogen tends to form compounds with oxygen in a 1:2 ratio, such as NO, NO2, N2O, and N2O3.

On the other hand, oxygen atoms tend to form compounds with nitrogen in a 2:1 ratio, such as NO, NO2, N2O, and N2O3.

This means that when nitrogen and oxygen atoms combine to form molecules, they tend to do so in certain ratios that follow these patterns. N2O5 doesn’t form N4O10 because it would break this pattern, and it’s not energetically favorable for the atoms to bond in this way.

So, in short, N2O5 doesn’t form N4O10 because the atoms prefer to bond in specific ratios, and N4O10 would break this pattern.

Well, N2O5 doesn’t form N4O10 because nitrogen (N) and oxygen (O) atoms have different tendencies to bond with each other. When nitrogen and oxygen atoms bond together, they tend to form molecules with certain ratios of atoms. For example, nitrogen tends to form compounds with oxygen in a 1:2 ratio, such as NO, NO2, N2O, and N2O3.

On the other hand, oxygen atoms tend to form compounds with nitrogen in a 2:1 ratio, such as NO, NO2, N2O, and N2O3.

This means that when nitrogen and oxygen atoms combine to form molecules, they tend to do so in certain ratios that follow these patterns. N2O5 doesn’t form N4O10 because it would break this pattern, and it’s not energetically favorable for the atoms to bond in this way.

So, in short, N2O5 doesn’t form N4O10 because the atoms prefer to bond in specific ratios, and N4O10 would break this pattern.

btw does As really form As4O10 or only As2O5?

btw does As really form As4O10 or only As2O5?

Phosphorus and arsenic are large enough atoms that they can generate the elaborate d-block electron structures required to form more than four bonds.

If you look at the structure of phosphorus pentoxide the phosphorus atoms have three single bonds and a double bond for a total of *five* unique bonding orbitals.

Nitrogen cannot support this structure, it’s simply too small and has too few electrons to play with.

Phosphorus and arsenic are large enough atoms that they can generate the elaborate d-block electron structures required to form more than four bonds.

If you look at the structure of phosphorus pentoxide the phosphorus atoms have three single bonds and a double bond for a total of *five* unique bonding orbitals.

Nitrogen cannot support this structure, it’s simply too small and has too few electrons to play with.