About the C in Chemistry

About the C in ChemistryIt has been said that the C in chemistry stands for 'Carbon'. A carbon atom has a nucleus of protons and neutrons surrounding it and has an electron orbiting around it. The C in chemistry stands for the number of protons in the atom, thus making it a single-electron atom.As you can see, the C in chemistry stands for one electron and not for an atom of carbon. This atom is the lightest one in the periodic table. Carbon also comes under the category of being a very reactive element.You can take carbonic acid to make ammonia and make it into a fertilizer. It is very effective in killing bacteria and viruses. We get ammonia from a different type of carbon and that is phosphoric acid. You can use carbon dioxide to make wind-up toys and electronic games. You can also use carbon dioxide for your research project.Carbon dioxide is a gas that has no visible or durable smell and is usually found as a yellowish color. Because of its place on the periodic table, it is oft en known as the 'solid carbon'.It is still one of the strongest gasses on earth, having an area of about four times the area of a mole of pure carbon dioxide. It is used for many reasons such as heating, cooling, cooling off, and powering turbines. Not all of us have the ability to convert carbon dioxide into a fuel. It is usually mixed with other substances such as methane and water, but it is a better choice to mix pure carbon dioxide with methane.The single oxygen atom gives this gas its name, because it contains one proton (hence the 'O' in 'oxygen'). You will find this gas in everything from soap to cooking oil. We have soaps that are made from this gas. This gas is considered to be the most common element in the universe.Methane is just one of the two gases that make up another set of separate gasses. The other gas is the Hydrogen, which is a very rare gas in nature. When the molecules of gas do not mix well, they become known as a noose gas.It is also possible for the molecul es to bond with the ones that are already present in a liquid, causing some extreme changes to the molecule of the gas. These changes may result in either being larger or smaller, or may even cause a chemical bond between the molecules in the same gas that it bonds with.