Axial Versus Equatorial Organic Chemistry

Axial Versus Equatorial Organic ChemistryIf you want to learn more about organic chemistry and how it affects your life, you may want to consider the differences between axial and equatorial organic chemistry. It's interesting that many people make the mistake of thinking that the two are interchangeable, which is not true. In this article, I will explain why axial organic chemistry is more effective in some circumstances than equatorial organic chemistry.For one thing, the two terms are used interchangeably, but the definitions are very different. When people use the terms, they often refer to the kind of chemistry that you are dealing with. If you are doing lab work and are using the R1 gas or solvent to do experiments, then you would be using an axial organic chemistry approach. However, if you are trying to produce fuels from organic material, then you will be using a more typical Equatorial Organic Chemistry approach. Let's look at the difference.First of all, with axial organic chemistry, you are getting information from your source. When you use an equatorial organic chemistry approach, you are simply relying on the information to which you are not exposed to. You may not even know what the results were. In fact, you are not even sure whether the reactions occurred because of the organic content or something else. This can lead to quite a bit of uncertainty. As a result, results can be quite unreliable, as they depend on what a reaction looks like when it is run under a microscope.In addition, with axial organic chemistry, there is a lot of guesswork involved. With the equation for the stoichiometric mixture constant, we have to guess a little bit about what the final reaction might look like. Although the reaction must always be true, because otherwise the whole experiment would be worthless, it is a little difficult to know the final product, because it is only ever going to be an approximation. The uncertainty factor means that you could end up with s ome very strange looking compounds, which do not necessarily belong in any of the categories that you are looking for.However, with equatorial organic chemistry, you have a much more solid foundation to work from. The more specific reactions are already known by the system, and the system itself already has a general idea of what it is doing. When you use an axial organic chemistry approach, it becomes extremely difficult to predict where the system is headed.As a result, axial organic chemistry is better for most types of applications, which makes it easier to get the most accurate results. But the most important thing to keep in mind is that there is no one right answer and that is exactly why the way to learn is to do it properly.This article was written by Vince Settle, BSc (Hons) in Chemistry, and is free to be distributed or copied as long as the author's website is cited and you are not making any changes to the article. You may reproduce the article, but please give proper a ttribution to Vince Settle.