carbon
Organic molecules are relatively complex molecules that contain a backbone of carbon atoms. Examples include hydrocarbons, carbohydrates, proteins, lipids, and nucleic acids.
Carbon is the element that provides the backbone for all organic molecules due to its ability to form stable covalent bonds with other carbon atoms and a variety of other elements. This unique bonding capacity allows for the diversity of structures and functions seen in organic compounds.
Carbon - Isaac =]
No, but most macromolecules are organic molecules (with a backbone made of carbon atoms). But it is possible to synthetically create macromolecules with a backbone made of silicon atoms (i.e. the silicones), boron atoms (i.e. the boranes), and a few others. The atoms attached to the backbone or forming side branches extending away from the backbone can be any element on the periodic table.
These are referred to as organic molecules. Organic molecules are comprised of carbon atoms bonded to other elements, suchjson as hydrogen, oxygen, nitrogen, and sulfur. The specific arrangement of atoms in the carbon backbone determines the structure and properties of the organic molecule.
An organic molecule is one that contains the element Carbon (C). The definition of organic has been misconstrued in the past few years primarily due to the food industry labeling foods that meet certain rigorous criteria as organic.
Carbon. Organic molecules are usually made up of carbon chains or rings, with hydrogen atoms bonded to most bond sites. The molecules are distinguished by the length of the chain, the number of double or triple carbon-carbon bonds, and the other elements or ligands that might be bonded to the carbon chain or ring.
Thid chemical element is carbon (C).
Atoms of carbon form the backbone of large complex molecules such as sugars and fats. Carbon's ability to form four covalent bonds allows it to create a diverse array of structures, including chains and rings, which are essential for the formation of organic compounds. This versatility is fundamental to the chemistry of life, enabling the complexity observed in biological molecules.
All four macromolecules (carbohydrates, lipids, proteins, nucleic acids) have carbon atoms as a common element. Carbon atoms are the backbone of organic molecules because of their ability to form versatile and stable bonds with a variety of other elements.
Carbon is the element responsible for the huge diversity of molecules of organic compounds. Its ability to form four covalent bonds with other elements, including itself, allows for the formation of complex and varied structures in organic molecules.
Carbon atoms make up the core in all organic molecules. They are the backbone of organic compounds due to their unique ability to form strong covalent bonds with other atoms, including hydrogen, oxygen, nitrogen, and sulfur.