Drawing Nucleus | Nucleus Diagram Drawing | How to Draw Structure of Nucleus Diagram | Drawing Easy

It's about drawing nucleus, as well as a nucleus diagram drawing easy way. Learn how to draw structure of nucleus or how to draw nucleus diagram for class 8, class 9 and class 11. So you'll have to learn how to draw nucleus diagram easily and how to draw nucleus cell. To draw nucleus in easy way you first learn how to draw nucleus diagram because biology nucleus drawing or science nucleus drawing means nucleus structure drawing first. I am showing nucleus drawing colour because some of you wanted this very much. ✅SUBSCRIBE: https://www.youtube.com/c/FarinKhanArtAcademy A molecular orbital energy level diagram, or molecular orbital diagram, is a qualitative tool based on molecular orbital theory and in particular, on the linear combination method of atomic orbitals. According to these theories, when atoms bond to form a molecule, a certain number of atomic orbitals combine to form the same number of molecular orbitals. A molecular orbital diagram represents the energy levels of these molecular orbitals. This tool is particularly suitable for describing diatomic molecules. It can be used, for example, to explain why some molecules exist in nature and others do not, the relative strength of chemical bonds, and the origin of certain physical properties such as the dipole moment and the diamagnetism or paramagnetism of molecules. In this article, OM is used for Molecular Orbital and OA for Atomic Orbital. Representation: The energy axis is vertical, pointing upwards. Lines, often dotted, connect the energy levels of the MOs with the energy levels of the AOs from which they are formed. Orbitals can be represented schematically next to their energy levels. If the wave functions associated with two atomic orbitals are of the same sign in the internuclear region, where they overlap, the overlap between orbitals is said to be constructive. Molecular orbitals formed from a constructive overlap, if occupied by electrons, help to bind two atoms together. They are therefore called bonding orbitals. A bonding MO is characterized by a lower energy than the energies of the AOs from which it is composed. Antibonding orbitals are marked with asterisks (*) in the OM diagram.OMs formed from a destructive overlap are called antibonding orbitals and, if occupied by electrons, contribute to a destabilization of the chemical bond. An antibonding OM is characterized by a higher energy than the energies of the AOs from which it is composed and has a nodal plane perpendicular to the internuclear axis. Antibonding orbitals are marked with asterisks in the OM diagram. #Nucleus #scienceart #sscpracticaldrawing #sscscience