hydron
Carbon based molecules are part of the family of compounds known as organic. Carbon bonding to other atoms is almost always of covalent nature; electrons are shared.
The atmosphere of Mars is almost entirely CO2.
There is not one particular formula to be given, because there are (already) 4 possibilities for one C atom to bind with chlorine (from mono- to tetra-chloro-methane):CH3ClCH2Cl2CHCl3CCl4With 2 C atoms 10 possibilities (from mono- upto hexa-chloro-ethane)and with more C atoms it becomes (almost) uncountable.
All organs in the body contain carbon as it is a fundamental element in organic molecules such as proteins, lipids, carbohydrates, and nucleic acids. Carbon is essential for life processes and is found in every cell of the body.
Carbon fiber is composed of carbon atoms arranged in a crystalline structure. The bonding in carbon fiber is primarily covalent, where carbon atoms share electrons to form strong bonds. These covalent bonds give carbon fibers their high strength and stiffness properties.
Carbon based molecules are part of the family of compounds known as organic. Carbon bonding to other atoms is almost always of covalent nature; electrons are shared.
Carbon atoms can form strong bonds with hydrogen atoms to create hydrocarbons, which are compounds made of carbon and hydrogen. These bonds are mainly covalent, where electrons are shared between the atoms, to form stable molecules. This characteristic of carbon bonding with hydrogen makes it a key feature in organic chemistry.
Carbon bonding is almost entirely covalent bonding. This occurs when carbon atoms share electrons with other atoms, allowing for the formation of stable molecules. Covalent bonds enable carbon to create a vast array of compounds, including organic molecules essential for life, due to its ability to form four bonds with other atoms.
That's a reasonable description of a "hydrocarbon"
Almost all of the compounds of carbon are formed by covalent bonding. Compounds such as diamond and graphite show strict covalent character in bonding.
almost entirely
Oxygen and carbon are bonded by covalent bonding when they form compounds. Ionic bonding involves the transfer of electrons between atoms, while covalent bonding involves the sharing of electrons. In the case of oxygen and carbon, they typically share electrons to form covalent bonds in molecules like carbon dioxide or carbon monoxide.
carbon isotopes
Carbon can form double bonds
Venus. Its atmosphere is almost entirely composed of carbon dioxide. It is so hot that its oceans boiled dry.
The atmosphere of Mars is almost entirely CO2.
With itself. Molecular bonding theory and the bond order show a sigma pi discrepancy ( bonding/anti-bonding ) that disallows this tetra-covalent carbon to carbon interaction. Google this for a fuller explanation.