None. If carbon, hydrogen, and oxygen happen to chemically combine, they form an organic compound. 'Compound', not element. (These 3 substances are each an element).
No, barium and carbon do not form a molecular compound on their own because they do not typically share electrons to form a covalent bond. Barium and carbon can form an ionic compound called barium carbide, where barium donates electrons to carbon to form a lattice structure.
Sulfur bonds just like oxygen, so just as carbon and oxygen form the very stable compound CO2, so is it that carbon and sulfur form the stable compound CS2.
Carbon and fluorine would most likely form a compound called carbon tetrafluoride (CF4). This compound consists of one carbon atom bonded to four fluorine atoms through single covalent bonds.
When carbon reacts with chlorine, the result is a covalent compound, specifically, carbon tetrachloride. And of course, all sorts of organic compounds can be chlorinated by partial or complete replacement of hydrogen atoms by chlorine. But the compound will never be ionic.
The chemical formula for carbon hydroxide is not a well-defined compound. Carbon can form various compounds with oxygen and hydrogen, such as carbon monoxide (CO) and carbon dioxide (CO2), but there is no recognized compound called carbon hydroxide in chemistry.
Carbon is not made form any compound. It is an element composed only of carbon atoms.
No, barium and carbon do not form a molecular compound on their own because they do not typically share electrons to form a covalent bond. Barium and carbon can form an ionic compound called barium carbide, where barium donates electrons to carbon to form a lattice structure.
Sulfur bonds just like oxygen, so just as carbon and oxygen form the very stable compound CO2, so is it that carbon and sulfur form the stable compound CS2.
yes, carbon monoxide is a covalent compound between carbon and oxygen
Carbon monoxide is a molecular compound because carbon and oxygen form a covalent bond with one another.
No. Water is a compound of oxygen and hydrogen. Carbon and oxygen will combined to form carbon dioxide or carbon monoxide.
When hydrogen reacts with carbon, it can form methane (CH4), which is a simple hydrocarbon compound.
When carbon and argon are combined, they do not form a compound. Carbon is a nonmetal element, while argon is a noble gas, so they do not easily react with each other to form a stable compound.
Carbon and fluorine would most likely form a compound called carbon tetrafluoride (CF4). This compound consists of one carbon atom bonded to four fluorine atoms through single covalent bonds.
Diamond is not an element but it is a compound of carbon. It is fully made of carbon atoms
When carbon reacts with chlorine, the result is a covalent compound, specifically, carbon tetrachloride. And of course, all sorts of organic compounds can be chlorinated by partial or complete replacement of hydrogen atoms by chlorine. But the compound will never be ionic.
No, bromine and carbon would not form an ionic compound. Carbon typically forms covalent bonds and bromine can also form both covalent and ionic bonds, depending on the element it is reacting with. In this case, a covalent bond would be more likely between bromine and carbon.