Al can form double or triple and C can form single, double and triple(in some cases) and can form partially triple bond also( like CO in carbon monoxide)...;)
A carbon atom needs four electrons to have a full outer shell so I guess it can form a maximum of four bonds.
Carbon may have 4 bonds :)
A carbon can form a maximum of four bonds.
Carbon has four valence electrons, each of which can be shared to form four single bonds. This means that it is possible to have two double bonds.
Aluminium is a chemical element, metal and form ionic bonds.
A carbon atom can form a maximum of four bonds.
No, aluminium and nitrogen do not form an ionic bond. Aluminium typically forms covalent bonds, while nitrogen usually forms covalent or coordinate covalent bonds.
Carbon can form four covalent bonds at most, such as in methane.
No, carbon typically forms four bonds.
Aluminium oxide does not react with hot carbon because aluminium is more reactive than carbon. This means that aluminium will preferentially react with oxygen to form aluminium oxide rather than with carbon. Additionally, the strong aluminum-oxygen bond is difficult to break, preventing the carbon from replacing the oxygen.
Carbon bonds with oxygen to form carbon dioxide (CO2) or carbon monoxide (CO).
Carbon forms a maxiumum of four bonds, which can be in the form of two double bonds.
Aluminium is a good conductor. Carbon, in the form (allotrope) of graphite is a good conductor but its other allotropes are not.
Carbon can form 4 covalent bonds as it has 4 valence electrons.
Carbon can form both weak and strong bonds depending on the atoms it is bonded to. For example, carbon forms strong covalent bonds with other carbon atoms in diamond, but can form weaker intermolecular bonds in substances like graphite. Additionally, carbon can form weak bonds with hydrogen in organic compounds.
A carbon atom needs four electrons to have a full outer shell so I guess it can form a maximum of four bonds.
Carbon atoms tend to form covalent bonds with other carbon atoms and with atoms such as hydrogen, oxygen, nitrogen, and halogens. Carbon can also form double and triple bonds with other carbon atoms or heteroatoms, giving rise to a wide variety of organic compounds.