The nature of bonding in graphite is: A.Covalent B.Ionic C.Metallic D.Coordinate
Hint: We have to know that graphite is a sort of gem carbon and a half-metal alongside being one of the prestigious carbon allotropes. Under the conditions that are ideal, it would be perhaps the steadiest type of carbon accessible.
Complete answer: We have to see that the chemical bonding alludes to the arrangement of a synthetic connection between at least two particles, atoms, or particles to lead to a synthetic compound. These substance bonds are what keep the atoms together in the subsequent compound. We have to see that covalent bond shows the sharing of electrons between particles. Mixtures that contain carbon generally show this kind of synthetic holding. The pair of electrons which are shared by the two particles currently stretch out around the cores of atoms, prompting the making of an atom. We have to know that, the idea of the compound holding present in graphite is covalent. Graphite has a layered construction where two-dimensional planes of carbon atoms are orchestrated in such a way that structures a three-dimensional strong. Every one of the carbon particles utilizes three of its electrons to shape basic bonds with its encompassing neighbors.
Therefore, the correct option is (A) covalent.
Note: We have to know that the covalent bonds can be either polar or nonpolar in nature. In polar covalent compound holding, electrons are shared inconsistently since the more electronegative particle pulls the electron pair nearer to itself and away from the less electronegative atom. Water is an illustration of a particularly polar particle.