The Science Of Hydrate Organic Chemistry

The Science Of Hydrate Organic ChemistryChemistry, just like life, has a number of lessons it teaches us as we grow older. In the real world, chemistry can only be successfully achieved if one has learned from prior experience.Alchemists believed that they had the key to the ultimate and most powerful elixir by employing the principle of Alchemy. The 'magic key' was the philosopher's stone - the very substance from which the Philosophers thought they could forge an elixir. Alchemists later discovered that their philosophers' stone was gold.The philosopher's stone was found in a medieval monk's urn. The monks were trying to discover how to make gold and were hoping the anti-possession potion they were using could reverse the effect of 'evil blood'. The cure for this wasn't better blood but was to find out how the elixir was created. They chose to experiment with hydrogen and oxygen.Chemistry today can be traced back to the discovery of carbon as a coolant in a newly invented steam eng ine. The same element that gave rise to the world's first hydrogen bomb. It was also in that engine that the gas we now know as Oxygen began to have any appreciable use as a gas. That first 'trick' allowed the engine to run for longer until a world-wide innovation in chemistry had occurred.It's important to realize the science of Hydration is about creating a 'pool' of 'hydrated' materials. To create a pool of this kind you need a different process than the one that creates it. For instance, when you eat, your stomach absorbs water as it creates the food in your body. This water is returned to the stomach, filtered through your blood, and then returns to your body as waste.The challenge to hydrate organic chemistry involves creating a chemical bond in the molecular structure between the elements in a compound. The chemical bonds in a compound are called ionic bonds. Ionic bonds are made possible by materials such as the mineral calcium carbonate and the base mineral magnesium, which makes them strong and allows them to store energy when hydrogen or other ions combine with them. This energy, stored as energy in the form of electrons, can be used to create chemical bonds in a material.Calcium carbonate is one of the strongest metal alloys known. It is therefore important to understand the properties of this metal before one attempts to make a compound that will hydrate organic chemistry. There are also many substances found in nature that are strong alloys when mixed with magnesium. These elements have been discovered to be very useful in hydrating organic chemistry.