Answer 1) O2 molecule has two unpaired electrons which is only proved by Molecular orbitals theory (M.O.T). the M.O.T may be checked in any standard book of Inorganic chemistry.
Answer 2) If you examine the orbital diagram for dioxygen, it contains a SOMO (Singly-Occupied Molecular Orbital) with 2 unpaired electrons. Dinitrogen does not have this. These unpaired electrons contribute to magnetism.
Ozone is DIAMAGNETIC there are no unpaired electrons.
Oxygen O2 is actually paramagnetic with 2 unpaired electrons. This phenomenon is difficult to explain by simple bonding diagrams. Molecular orbital theory predicts this , whereas traditional valence bond theory did not.
Oxygen molecule is paramagnetic because it has two unpaired electrons in its molecular orbital. This causes oxygen to be magnetically attracted to a magnetic field.
there are unpaired electrons in antibonding molecular orbitals
because of unpaired electron
Oxygen is paramagnetic because it has unpaired electrons in its molecular structure. This unpaired electron causes oxygen to be attracted to a magnetic field, exhibiting paramagnetic properties.
The atomicity of oxygen in an oxygen molecule is 2. This means that each oxygen atom in an oxygen molecule is bonded to another oxygen atom, resulting in a diatomic molecule with the formula O2.
Yes, an oxygen molecule is composed of two oxygen atoms. Each oxygen atom forms a double bond with the other to create the oxygen molecule (O2).
Oxygen has two unpaired electrons in its molecular orbital configuration, making it paramagnetic. On the other hand, sulfur does not have any unpaired electrons in its molecular orbital configuration, making it diamagnetic. The presence of unpaired electrons in oxygen makes it more attracted to a magnetic field compared to sulfur.
No, two atoms of oxygen do not make a molecule of oxygen. A molecule of oxygen is O2, which consists of two oxygen atoms chemically bonded together.
Paramagnetic Oxygen Analyzer is used to measure the content of oxygen not only in flammable gas mixtures but also in low concentrations, with high precision.
Oxygen is paramagnetic because it has unpaired electrons in its molecular structure. This unpaired electron causes oxygen to be attracted to a magnetic field, exhibiting paramagnetic properties.
Yes! Since it has un-paired electrons: ) Actually C2 isn't paramagnetic. There's certain type of diagram how to determine whether molecule is paramagnetic or not. And C2 isn't. Instead C2(2+) would be paramagnetic.
A paramagnetic element is an element that is weakly attracted to a magnetic field due to the presence of unpaired electrons. Some common examples of paramagnetic elements include oxygen, copper, and aluminum.
NO2 has a resonance structure, in which the nitrogen atom forms a double bond with one oxygen atom and a single bond with the other oxygen atom. This results in a bond type that is an average of a single and a half bond, making it a "one and a half" bond type.
Because liquid oxygen is highly paramagnetic. This is related to paired electrons in oxygen's electron shelling.
oxygen is a molecule
Oxygen itself is a poor conductor of electricity in its gaseous form. However, oxygen can act as an oxidizing agent and enhance the conductivity of certain materials by facilitating chemical reactions that influence their electrical behavior.
There are 8 protons in an oxygen atom. There are two oxygen atoms in an oxygen molecule. Therefore, there are 16 protons in an oxygen molecule
The basic principle of both theories is same that is distribution of electrons but mot is superior to vbt. The reason is that vbt could not explain paramagnetic character of oxygen while the mot has sucessfully explain the paramagnetic character of oxygen.
No, it's not organic (an organic molecule has to contain carbon.)
it is a molecule with two oxygen atoms..