There are 0 unpaired electrons which would make it diamagnetic
Exactly 0.
The number of unpaired electrons in Tl-81 ion is zero, this in case of ejection of one electron from Tl-81 atom. Thx!!
Without hybridization, oxygen has a valence electron configuration of 2s22p4. Which means it has 2 unpaired electrons; therefore it can form 2 bonds.
The Neutral is bonded to the ground at the FIRST main breaker, which is usually just as it comes from the meter. In normal residential applications, power comes from the meter, then to a panel. In that panel, the ground and neutral are bonded. If that panel feeds another panel, the second panel has to have its ground and neutral separated. Mobile homes have to have a main breaker outside the house, so the neutral is grounded there, and inside the mobile home, they are separated.
Basically the nonmetals. Many of them receive electrons, like oxygen, nitrogen, selenium, tellurium, and many others.
Phosphorus has three unpaired electrons in its ground state.
An atom of antimony in its ground state has 3 unpaired electrons.
Iodine has one unpaired electron in its ground state.
There are 5 unpaired electrons in Fe^3+ in its ground state.
3 electrons. This can be told from the periodic table. These electrons are in the 2p orbital.
Magnesium has five unpaired electrons and is therefor paramagnetic
Two
Germanium has 0 unpaired electrons in its ground state, as it has a completely filled 4s and 4p orbitals, resulting in a full outer shell configuration.
There are 5 unpaired electrons in Fe^3+ in its ground state.
3
In its ground state, rhenium (Re) has 1 unpaired electron.
There are three unpaired electrons in an atom of cobalt in its ground state. This can be determined by the electron configuration of cobalt, which is [Ar] 4s2 3d7. The 3d orbital has 5 electrons, so there are 3 unpaired electrons.