The chemistry of organic compounds is complex, but in general, the properties of an organic compound are determined by both the shape of the molecule and the pattern of positive and negative charges that exist in that molecule because of the varying electronegativity of the components of that molecule.
The chemical properties of organic molecules are primarily determined by their functional groups, which are specific arrangements of atoms that dictate how a molecule will react with other substances. The functional groups influence the molecule's reactivity, polarity, acidity or basicity, and other key characteristics. Additionally, the structure and bonding within the molecule play a significant role in determining its chemical properties.
The chemical behavior of an atom depends mostly on the number of electrons in its outermost shell.
The properties of organic compounds are mainly determined by the elements that form them. This will include hydrocarbons, monomers and functional groups.
An organic compound is any compound whose molecules contain carbon.
Electron repulsion.
Carbon skeleton
the shape of proteins molecules
C3f8
Functional groups are responsible for the chemical properties and reactivity of organic molecules. They influence the behavior of molecules in biological systems, such as enzyme-substrate interactions and signaling pathways. The specific functional group present in a molecule determines its physical and chemical characteristics, including its solubility, acidity/basicity, and potential for forming bonds with other molecules.
Hydrogen is the abundant element found in both water molecules and most organic molecules. It plays a crucial role in the structure and function of these substances, contributing to their chemical properties.
Carbon is the chemical element found in all organic molecules.
The functional group is the portion of a molecule that is active in a chemical reaction and determines the properties of many organic compounds. It is responsible for the characteristic chemical reactions and behaviors of a compound. Examples include hydroxyl (-OH), carbonyl (C=O), and amino (-NH2) groups.
The three main elements comprising the structure of organic molecules are carbon, hydrogen, and oxygen. These elements form the backbone of organic compounds and are essential for the variety of functions and properties exhibited by organic molecules.
Carbon skeleton
dehydration synthesis
K. F. Reid has written: 'Properties and reactions of bonds in organic molecules [by] K. F. Reid' -- subject(s): Chemical bonds, Organic Chemistry
The functional group is the portion of a molecule that is active in a chemical reaction and determines the properties of many organic compounds. It is responsible for the characteristic chemical reactions and behaviors of a compound. Examples include hydroxyl (-OH), carbonyl (C=O), and amino (-NH2) groups.
In general, carbon compounds.
funtional group
Functional group
Carbon is the chemical element found in all organic molecules.
the form determines how the organic molecule will look and the shape will determine how the behave organic molecule reacts with other molecule
Energy harvested from organic molecules is contained in the chemical bond. The cells can then use this energy to complete their activities.
Carbon - Isaac =]
Inorganic (no Carbon) Organic (Carbon) Physical (properties and changes) Biochemistry (life chemical reactions) Analytical (determines compostition) Theoretical (uses math and computers to predict properties and new compounds) Environmental (how chemicals affect the environment).