Chemical reactions and equations are the production of molecules from simpler compounds. In a chemical reaction, reacting agents are chemicals that are in physical contact with each other and will react, usually with the help of energy, to form new compounds. Reactions take place in chemical compounds with various compositions. These new compounds are then further modified into different types of elements. Thus chemical reactions produce new compounds which have various features in common with their parent substances.
Organic chemistry deals with the chemical reactions which lead to the development of various organic compounds. The most important example of such a reaction is the production of oxygen from water. Oxygen is a highly reactive element and it combines with other molecules to form different kinds of molecules, including an assortment of carbonates. Certain kinds of amino acids combine with oxygen in order to produce the amino acids that make up proteins. Thus there are many ways in which chemical reactions lead to the evolution of new compounds.
There are also chemical reactions and equations involved in the production of different kinds of compounds. Some kinds of compounds are made up of atoms which are very closely related to one another, while others are composed of many different kinds of atoms. In cases where atoms are very similar they are usually considered as single units. A chemical reaction is therefore needed to break these atoms apart. The end result of the reaction is then a series of new atomic particles that possess a definite connection to each other via electrostatic repulsion and electrical charges.
Other kinds of chemical reactions and equations involve the use of the theories of relativity and Quantum mechanics. Relativity is concerned with the relative speeds of large-sized units such as atoms and molecules. Quantum mechanics, on the other hand, deals with the behaviour of very small entities. When two objects come into close proximity, such as when they touch, or when they interact through some kind of electric field, their respective states can undergo what is called a “quantum superposition”. In this condition they can change rapidly from their original states, into their extremely fast ground state, which is a vacuum, or back into their original states again.
There are many kinds of chemical reactions and equations involving matter, in general. There are chemical reactions that involve atoms and molecules, while there are also chemical reactions that involve ions, electrons, molecules and void elements. There are even chemical reactions and equations that involve radioactive substances. These include nuclear fission and fusion, or the splitting of an atom or molecule. There are also some chemical reactions and equations that involve high-energy states. Examples of these are the processes by which light is split into energy particles in the form of photons, the process by which radio waves become visible, the generation of heat in extremely high temperatures, and the existence of vacuum within extremely high temperatures.
One of the most common types of chemical reactions is that of the decomposition reaction, which occurs when certain materials such as inorganic or organic compounds or when chemical bonds are broken down. The products of chemical reactions and equations involving the decomposition of substances are chemical substances with a composition that is a combination of elementary particles that existed previously. For instance, in chemical reactions, the decomposition reaction of hydrogen occurs in the presence of an oxygenated solution. In cases where the solution does not contain oxygen, however, the decomposition can take place. The bonds that exist between the carbon atoms in the solution are what become broken down, resulting in carbonic acid.
One can find a great number of chemical reactions and equations involving the production of new substances as well as the different ways in which existing substances are decomposed. In cases where a new substance is produced, its own chemical reactions and equations will be necessary for the reactions to take place. The use of these new substances is useful in a variety of ways; in chemical reactions, new elements and compounds are produced, used in lab research and other scientific activities, or as raw materials for other industries. Other ways in which new substances are used include fuel combustion, reaction catalyzing reactions, as additives to foods, and the manufacturing of new medicines.
The process by which new elements and compounds are created through chemical reactions and equations is known as reaction-distance. A chemical reaction and equation involving reactant and reaction substance are referred to as a relative formula mass. The rate at which reactants and reactant molecules are combined and the rate at which they are dispersed are both important factors in determining the value of a relative formula mass. The higher the relative formula mass of a compound, the more mobile it is. Higher mobile elements mean less friction and therefore greater energy for reactions to take place.