Carbon is the element present in every organic compound. Organic compounds are defined as compounds that contain carbon-hydrogen bonds.
Carbon and hydrogen are the elements present in every organic compound. Additionally, organic compounds can also contain oxygen, nitrogen, sulfur, and 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 and hydrogen are the two elements found in every organic compound. Organic compounds are primarily composed of carbon atoms bonded to hydrogen atoms, as well as other elements such as oxygen, nitrogen, sulfur, and phosphorus.
Every organic molecule contains carbon atoms.
the number and kinds of atoms in the compoundIn an ionic compound, the formula gives the ions and their ratios in the crystal lattice. In a molecular compound, the formula gives the numbers of atoms of each element in a molecule.
The element 'C' (Carbon) is present in every organic compound.
Carbon
carbon i think
Carbon and hydrogen are the elements present in every organic compound. Additionally, organic compounds can also contain oxygen, nitrogen, sulfur, and other elements.
Carbon.By definition, organic chemistry is the study of chemical compounds that contain Carbon (C) with exception of carbonates, bicarbonates , metallic cyanides and carbides.Carbon.
Carbon is fundamental to all organic compounds. Organic compounds contain one or more C-H or C-C bonds. All organic compounds contain carbon, but not all carbon-containing compounds are organic, such as carbon dioxide.Carbon is the foundation for making organic compounds. Every organic contains carbon. Hydrogen is also present in every organic compound.
Palm oil is an organic compound since every oil is organic
"Not every molecule in a living system is an organic compound." This statement is correct according to the definition of organic compounds as compounds containing carbon. For instance, water is a major component of living systems but is not "organic".
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.
Oxygen
A compound with a 121 ratio typically refers to its molecular formula or stoichiometry, indicating that for every one unit of one element, there are two units of another element. This could represent a variety of compounds, but without specific context, it's challenging to identify a particular compound. For example, in a hypothetical compound with the formula A1B2, element A would be present in a 1:2 ratio to element B. To provide a precise answer, more information about the elements involved or the compound's context would be needed.
The molecular formula of the compound can be calculated from the composition of element in a compound. The next steps are involved in the calculation of percentage of every element in a compound.