Carbon starts out as a simple organic molecule, Carbon Dioxide. The leaf changes it into sugar, which is not a simple compound. It takes the sugar and changes that into a whole lot of different compounds.
No, breaking up a carbon dioxide molecule into its constituent atoms (carbon and oxygen) would result in separate carbon and oxygen atoms. The molecular structure and properties of carbon dioxide would no longer exist.
No, elements are not always part of an organic compound. Elements can exist in various forms and compounds, both organic and inorganic. Organic compounds are defined by the presence of carbon atoms bonded to hydrogen atoms, but elements themselves are not restricted to being part of organic compounds.
Carbon is the backbone element of organic molecules, providing stability and structure due to its ability to form covalent bonds with other carbon atoms and different elements. It can form diverse functional groups, allowing for a wide variety of molecules with different shapes and properties to exist in nature. Carbon's flexibility in bonding contributes to the complexity and diversity of organic molecules found in living organisms.
No. Organic compounds are simply compounds that contain bonds between carbon and hydrogen. Simple organic compounds such as methane and ethane occur in the atmospheres of other planets where there is no life, and laboratories have produced more complex organic compounds that do not exist in nature.
The weakest bonds in a double-stranded molecule of deoxyribonucleic acid exist between the nitrogenous bases of the two strands. These bonds are hydrogen bonds, which form between specific complementary base pairs (adenine with thymine, and guanine with cytosine).
Molecules containing carbon are known as organic molecules. These can include simple compounds like methane and ethanol, as well as complex structures like proteins and DNA. The versatility of carbon allows for a wide variety of organic molecules to exist.
The assumption is that life requires complex organic (i.e., carbon-based) molecules. Sugar, or other organic molecules, would be a first step. However, sugar is a fairly simple molecule; from sugar to life is still a huge step.
These are likely hydrocarbons, which are organic compounds composed only of carbon and hydrogen atoms. They can exist as simple structures like methane or as complex structures like long chains of carbon atoms in polymers. Hydrocarbons are found in natural gas, petroleum, and many organic materials.
Yeshttp://www.organichorizons.ca/harvest.htm All bouillon cubes are organic. It is the non-organic boullion cubes that do not exist. "Organic" means "containing carbon". All boullion cubes contain carbon, and therefore all bouillion cubes are organic.
A compound containg carbon (but some exceptions exist).
Organic molecules are essential. Almost everything you can touch or see is an organic molecule. Your body is composed primarily of water and organic molecules. Food is organic, and medicines are almost exclusively organic molecules. Most surfaces are organic, including wood and plastics. Without organic molecules, you wouldn't exist!
Of course, fatty acids are organic compounds and they can not exist without carbon.
Of course, fatty acids are organic compounds and they can not exist without carbon.
A molecule consists of atoms bonded together through chemical bonds. The main parts of a molecule include atoms, which are the building blocks of matter, and bonds, which are the forces holding the atoms together. Various types of molecules can exist, such as organic molecules containing carbon atoms and inorganic molecules without carbon atoms.
Carbon is most abundant in the Earth's crust, primarily in the form of minerals such as calcite, magnesite, and dolomite. It is also found in the atmosphere as carbon dioxide and in living organisms as organic matter.
Carbon is not a molecule; it is an element. An element is a substance containing only one type of atom. Carbon molecules are collections of carbon atoms. No chemical element is "good" or "bad"; they just exist.
No, it is one molecule.However some large organic molecules (i.e. polymers) are formed from small organic molecules (i.e. monomers) that bond together into long chains, forming one new large molecule. The small molecules no longer exist as individual molecules after bonding into the large molecule.