Not that we are aware of. Magnetic fields are created by moving charge (electrons). The field is always at a 90° angle to the direction of the charge's motion. So an electron spinning around the nucleus will cause a tiny magnetic dipole, direction depending on which direction it is spinning. Atoms with multiple electrons may have electrons spinning in different directions which could cancel out the net effect, but if there is a net in one direction, and several those line up pointing in the same direction, then you have a magnet.
The electric field is caused by any electric charges, not just electrons.The magnetic field is closely related to the electric field; in fact, any moving charge will produce a magnetic field.
The element does have a magnetic moment. This is because there is one pair of electrons and two individual electron molecules in the valence shell. This is to say that the unpaired electron molecules create a magnetic moment. That is sulfur's magnetic property.
Only some metals, with a special electron configuration could get magnetic. The most well known metals, that could get magnetic are Iron (Fe), Cobalt (Co) and Nickel (Ni). Also you can find metals in the category of rare earth elements, that could get magnetic. Neon could not get magnetic for two reasons: 1. It is a nonmetal. 2. It has a stable electron configuration.
nitrogen is not magnetic
Potassium is not a magnetic chemical element.
The element Mercury is not magnetic except at cryogenic temperatures.
if the element is attracted by any magnet when brought near it then , we can conclude that the element is magnetic.......
Yes, lithium is paramagnetic because it has one unpaired electron.
An electron is not an element.
Helium has no electron affinity.
No. Zinc is not paramagnetic. The electron configuration of Zn(0), or zinc metal, is [Ar] 3d10 4s2. All electrons are paired, and therefore Zn(0) is diamagnetic. The most common ionized form of zinc, Zn(2+) is also diamagnetic. The electron configuration of Zn(2+) is [Ar] 3d10. All electrons are paired, and therefore the Zn(2+) cation is diamagnetic.
Silicon is a diamagnetic chemical element (not magnetic).
The element that has a single electron in the 2p sublevel is boron. The electron configuration of Boron is 1s22s22p1.