If you are going by the electron configuration of nitrogen then the unpaired electrons in the 2p shell would indicate that it is paramagnetic. However experiments show that it is diamagnetic. You must remember that nitrogen is a diatomic element and as such is found as N2. The molecular orbital theory explains how there are no unpaired electrons in the bonds between the two N atoms. The 1s and 2s molecular orbitals are completely filled and all of the bonding 2p orbitals are also filled. There are no electrons in the any of the 2p anti-bonding orbitals. Seeing a molecular orbital diagram for N2 will clarify what i mean.
yes, the number of electrons in the outermost shell of the carbon atom is filled with electrons, leaving no electrons unpaired and therefore making it diamagnetic.
Yes, Chlorine is a paramagnetic element. The electron configuration of Chlorine is 1s(2)2s(2)2p(6)3s(2)3p(5) which contains an unpaired electron in the 3p orbital. Atoms with unpaired electrons are said to be paramagnetic.
it will be paramagnetic because silicon has unpaired electrons
Bromine is paramagnetic. This is because the 4p subshell has a value of 4p5. 5 electrons in a p subshell (which has space for 6), means the last electron is unpaired. The unpaired electron gives it the property of paramagnetism. Alternatively, Selenium is diamagnetic, as it has the outer subshell 4p4, meaning no electrons are unpaired.
Fluorine gas is diamagnetic as there are no unpaired electrons A neutral atom of flurine would be paramagnetic as due to the presence of 1 unpaired electron in a 2p atomic orbital
Be2- ion is diamagnetic because it has a completely filled electron configuration with all paired electrons, resulting in no unpaired electrons to exhibit paramagnetic behavior.
No. N2 is diamagnetic, there are no unpaired electrons.
Aluminium is paramagnetic, for it has unpaired electrons.
yes, the number of electrons in the outermost shell of the carbon atom is filled with electrons, leaving no electrons unpaired and therefore making it diamagnetic.
yes, because C has 2 unpaired electrons and F has 1 unpaired electrons. An example of DIAmagnetic element: Neon, no unpaired electron.
Due to the absence of unpaired electrons, for magnetic properties there should be at least one unpaired electron in the atom.
Yes, Chlorine is a paramagnetic element. The electron configuration of Chlorine is 1s(2)2s(2)2p(6)3s(2)3p(5) which contains an unpaired electron in the 3p orbital. Atoms with unpaired electrons are said to be paramagnetic.
Phosphorus, which is the 15th element, has the most unpaired electrons among the first 20 elements. It has three unpaired electrons in its outer shell.
Yes, the nitrogen molecule (N2) is diamagnetic because it contains only paired electrons in its molecular orbital diagram, making it unreactive towards a magnetic field. This means that it is not attracted to a magnetic field and does not possess any net magnetic moment.
it will be paramagnetic because silicon has unpaired electrons
There are 0 unpaired electrons which would make it diamagnetic
There are 3 unpaired electrons in an isolated nitrogen atom, the nitrogen molecule has none.