it would function as both an acid and a base.
The backbone of organic molecules consists of covalently bonded carbon atoms. A macromolecule is composed of smaller units called monomers.
an oxygenThe central carbon atom in an amino acid is bonded to an amino functional group, a carboxyl functional group, a side chain, and hydrogen.
DNA and RNA are polymers composed of nucleotides. Nucleotides are composed of a 5-carbon sugar, a nitrogen base, and a phosphate group covalently bonded together. The 5-carbon sugar in a DNA nucleotide is deoxyribose, and the 5-carbon sugar in RNA is ribose.
All the macromolecules in the human body are basically Carbon covalently bonded to other elements- mostly Hydrogen, Oxygen and other carbon atoms. There are other elements, but they don't appear in all of the body's macromolecules.It is Carbon.
I think what you're asking is, are the materials autotrophic eukaryotes (multicellular organisms that are able to produce their own glucose for energy), like most plants that use photosynthesis to produce glucose from carbon dioxide and water, considered inorganic compounds? sunlight H20+CO2---------> C6H12O6 + O2 the best answer I found was, "Organic compounds are actually compounds containing carbon covalently bonded with a hydrogen. You can say carbon is the main thing here. Compounds of carbon [except oxides, carbonates, bicarbonates] are termed as organic. Water does not contain a carbon atom. So it is inorganic. Carbon dioxide is considered by chemists as inorganic, along with carbon monoxide, carbonates and bicarbonates. Nature has not distinguished compounds into inorganic and organic compounds that clearly. These compounds of carbon are just assumed to be inorganic. Also there is that one thing about carbon being covalently bonded with hydrogen in organic compounds. Due to that criteria carbon dioxide is considered inorganic. But actually there is no clear reason."
Freon is more covalently bonded. It consists of covalent bonds between the carbon, fluorine, and chlorine atoms in its structure.
CCl4 forms a covalent bond because it consists of nonmetal elements (carbon and chlorine) that share electrons to form a stable molecule. Ionic bonds typically involve a metal and a nonmetal, where electrons are transferred rather than shared.
No. Carbon dioxide is a covalently bonded compound that is very different from a metal.
Yes, for instance carbon dioxide (structure: O=C=O) is covalently bonded.
Carbon tetrahydride (CH4) forms covalent bonds because it is composed of nonmetals (carbon and hydrogen), which share electrons to form a stable molecular structure. Ionic bonds, on the other hand, are formed between a metal and a nonmetal.
The two oxygens bond to the carbon covalently (double bonds) and form a linear molecule.
skeleton
Functional groups
This is one of the most common definitions of "inorganic" compounds.
False; they always contain Carbon
R-COOH An R group bonded to a carbon that is double bonded to one oxygen and bonded singly to a hydroxyl group.
The acid group found in lipids is called a carboxyl group, which consists of a carbon atom double-bonded to an oxygen atom and single-bonded to a hydroxyl group (OH).