In other words, does C2 2+ have a paramagnetic or diamagnetic valence?
The absence of unpaired electrons makes diamagnetic C 2.
Can you tell me if C2 2 +) has a paramagnetic or diamagnetic remanence?
As each electron in C 2 has a partner, the molecule is diamagnetic. One electron in each of O 2’s p* orbitals is unpaired, making the molecule paramagnetic.
The C2 2 ion has what bond order?
For a diatomic anion of carbon, the bond order is 3.
Do you know if C2 2 +) is a diamagnetic or paramagnetic compound?
All of C 2’s electrons are coupled, making it diamagnetic. The presence of two lone electrons in the p* orbitals of O 2 makes it paramagnetic.
When determining the bond strength of C2 2, how do you determine the exact sequence of the bonds?
Re: C2+ C2 –
Hence, the 8 electrons would completely occupy the s and p orbitals at the outermost level, but for C2-, it would only fill the 1s orbital and leave the 2s orbital unoccupied. As C2- has a more solid connection and is more difficult to draw an electron away from, it has a stronger binding.
To what extent does each of the following compare in terms of stability? C2 or C2+?
Re: C2+ C2 –
Hence, the 8 electrons would completely occupy the s and p orbitals at the outermost level, but for C2-, it would only fill the 1s orbital and leave the 2s orbital unoccupied. As C2- has a more solid connection and is more difficult to draw an electron away from, it has a stronger binding.
