In certain circumstances, yes. Oxygen is paramagnetic, so it is possible to induce a magnetic moment in it by exposing it to an external magnetic field. So basically, liquid oxygen only exhibits its magnetic properties in the presence of a magnetic field.
Molecular orbital theory predicts that ground state diatomic oxygen has two unpaired electrons (it is a diradical) which occupy its pi orbitals. These unpaired electrons produce a magnetic moment and are responsible for the paramagnetic property of diatomic oxygen.
Not all metals are magnetic; for example, graphite and aluminum. Additionally, a non-metal may be a magnet; for instance, O2, or oxygen gas, is paramagnetic.
The blue color of oxygen results from the interaction of light with transient complexes of two oxygen molecules. This complex of four oxygen atoms can absorb visible photons of various colors (determined by the vibrational states of the complex). This process actually does occur in gaseous oxygen, as well. However, the intensity of the color is proportional to the density of two-oxygen-molecule complexes, and therefore to the oxygen molecule density squared. Since the density of liquid oxygen is about 1000x higher than gaseous oxygen, the liquid is about a million times as blue as the gas.
Not magnetic
non-magnetic
No, oxygen is not magnetic.
In certain circumstances, yes. Oxygen is paramagnetic, so it is possible to induce a magnetic moment in it by exposing it to an external magnetic field. So basically, liquid oxygen only exhibits its magnetic properties in the presence of a magnetic field.
when magnetic ribbon reacted with oxygen then it forms a new substance which is known as magnesium oxide[2mgo]
oxygen is para magnetic in nature. Due to the presence of 2 unpaired electron ^Py and ^Pz anti bonding orbitals. which account for the para magnetic behavior of oxygen
NO. Aluminum and oxygen are paramagnetic and do not show magnetic behavior under normal conditions.
Examples of non magnets are wood, petroleum, oxygen, etc.
if there is a biology in the stoop
I know of 2 instruments that measure oxygen, a cathrometer or an analyzer that operates on the magnetic wind principal
Molecular orbital theory predicts that ground state diatomic oxygen has two unpaired electrons (it is a diradical) which occupy its pi orbitals. These unpaired electrons produce a magnetic moment and are responsible for the paramagnetic property of diatomic oxygen.
Not all metals are magnetic; for example, graphite and aluminum. Additionally, a non-metal may be a magnet; for instance, O2, or oxygen gas, is paramagnetic.
The blue color of oxygen results from the interaction of light with transient complexes of two oxygen molecules. This complex of four oxygen atoms can absorb visible photons of various colors (determined by the vibrational states of the complex). This process actually does occur in gaseous oxygen, as well. However, the intensity of the color is proportional to the density of two-oxygen-molecule complexes, and therefore to the oxygen molecule density squared. Since the density of liquid oxygen is about 1000x higher than gaseous oxygen, the liquid is about a million times as blue as the gas.