What is the bond order of N2+? Express the bond order numerically. Is N2+ paramagnetic or…
The following solution is suggested to handle the subject “What is the bond order of N2+? Express the bond order numerically. Is N2+ paramagnetic or…“. Let’s keep an eye on the content below!
Question “What is the bond order of N2+? Express the bond order numerically. Is N2+ paramagnetic or…”
What is the bond order of N2+? Express the bond order numerically. Is N2+ paramagnetic or diamagnetic? paramagnetic diamagnetic neither
Answer
Concepts and Reason
This problem can be solved by calculating the bond order in a molecular molecule. It is the half-way mark between the number electrons in bonding molecular orbitals and anti-bonding orbitals.
Fundamentals
The difference in the number of electrons in bonding molecular orbitals and those in anti-bonding molecular orbitals is equal to one-half of the bond order in a molecule.
Important importance of bond order
1.Stability in molecules or ions
If the bond order of a molecule is positive, it will be stable. However, if the bond order value is negative or zero, the molecule/ion will not be stable.
2.Bond dissociation energy:
The bond order directly affects the bond dissociation energy. The bond dissociation value will increase with increasing bond order.
3.Bond length:
Bond length is proportional to bond order. This means that the bond length will decrease if the bond order is higher.
4.Number bonds
The number of covalent bonds found in the molecules is predicted by the value of the bond order. If bond order is 2 then there are two covalent links.
If all electrons are paired, the species will be diamagnetic. Para-magnetism needs unpaired electrons.
Ans: Part A
The bond order in
is
.
Part b
The
ion becomes
.
Conclusion
Above is the solution for “What is the bond order of N2+? Express the bond order numerically. Is N2+ paramagnetic or…“. We hope that you find a good answer and gain the knowledge about this topic of science.
