A single carbon atom can form up to four bonds.
They can each form four bonds.
A carbon atom can form up to four single bonds with other atoms. This is due to carbon's ability to form four covalent bonds by sharing its four valence electrons.
Carbon can form up to four bonds due to its ability to share electrons with other atoms.
A carbon atom can form up to four covalent bonds, meaning it can bond with up to four hydrogen atoms.
A single carbon atom can form up to four bonds.
A carbon atom can form 4 single covalent bonds
A carbon atom can form single, double, or triple bonds with other atoms.
They can each form four bonds.
A single carbon atom can form a maximum of four covalent bonds. This is because carbon has four valence electrons available for bonding.
A carbon atom can form up to four single bonds with other atoms. This is due to carbon's ability to form four covalent bonds by sharing its four valence electrons.
A carbon atom can form a maximum of four covalent bonds.
Graphite has covalent bonds known as sigma bonds between each carbon atom within a single layer, as well as delocalized pi bonds that extend across multiple layers. These pi bonds allow for the unique properties of graphite, including its lubricating and electrical conductivity properties.
Four
Carbon bonds with 4 bonds, shown by the need of four electrons to complete it's outer shell
The geometry around a carbon atom is determined by the number of electron pairs, including both bonding and nonbonding pairs. If a carbon atom has four electron pairs (either four single bonds or three single bonds and one lone pair), it will form a tetrahedral configuration. In contrast, if a carbon atom has only three electron pairs (three single bonds), it will form a planar configuration.
because carbon has only four electrons in the valence shell