Chemistry is all about how matter and energy relate to each other in the elements and compounds. Most of the time, a chemist only needs to know about 90 elements. Chemistry has been broken up into different types, such as Organic Chemistry, Inorganic Chemistry, Biochemistry, Quantum Chemistry, Physical Chemistry, and so on, to make it easier to understand and use.
The subject has been roughly split into two groups, however: inorganic chemistry and organic chemistry. Before deciding which stream is harder and which is easier, we need to know what Organic Chemistry and Inorganic Chemistry are.
When you are first learning about this subject, you learn about inorganic chemistry. The study of metals, non-metals, bases, acids, and salts. During the study, you would learn about Sodium Chloride, Potassium Nitrate, Phosphoric Acid, Nickel Sulfate, and so on. As the class goes on, you’ll learn about things like half-reactions, reactions, and so on. Inorganic chemistry would also cover chemical analysis, titration, and other topics at some point.
Different applications of the inorganic chemistry are also found; some of which are detailed below;
Application in Medicine
Magnesium Hydroxide and Aluminum Hydroxide are two inorganic compounds that are used as antacids for acidity and heartburn. Sodium fluoride is also used in toothpaste to prevent tooth decay and other dental diseases. In hospitals, Ferrous Sulfate is used to raise the amount of hemoglobin in anemic patients. Oxygen, which is needed for breathing, is the most common thing. Sodium Chloride and Potassium Chloride are inorganic compounds that are used as oral rehydration salt to help people who are weak from being dehydrated or from having diarrhea or vomiting.
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Application at Home
Table salt is the most well-known inorganic compound that you know of. Then there are other compounds that are used every day around the house, like baking soda, bleaching powder, washing soda, and so on. Minerals that are used to make things like Bentonite, Talc, Steatite, and so on are also inorganic compounds.
You could say that Organic Chemistry is the next step up from Inorganic Chemistry. To put it simply, organic chemistry is the study of carbon. But the two approaches to this subject are very different when it comes to the subject itself. If you went to an organic laboratory, you would see long tables with metal latticework and glassware hanging from it. There would be valves with different colors for water, air, gas, and so on. Organic chemistry is much broader than inorganic chemistry. It includes fields of study like biochemistry, which is the study of chemical processes in living things.
Organic chemistry is more useful than inorganic chemistry because it can be used in many different ways. It is a hard subject to study, so it is taught as a separate course within Chemistry. Solvents, graphites, carbons, and other things are talked about in organic chemistry. It can also be used in a lot of different ways, and it is interesting to see how many things we use every day, like milk, sugar, and bread, are made from organic matter. Aside from food, this category also includes things like belts, shoes, tires, computers, and machines. Organic chemistry can be used in many different ways, so let’s look at each one in turn.
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Pathophysiology of the Disease
Most diseases in people happen slowly and go through different stages. With the help of the organic part of Chemistry, experts can figure out if there is more or less of a compound than usual. For example, when a person has an infection, some biochemical parts of their body are damaged. In the same way, parasites in Malaria attack the hemoglobin in the blood, which causes the levels to drop quickly. In one way or another, the body’s parts change, and a successful diagnosis helps find out what stage the disease is in and how bad it is.
Learning about organic chemistry can also help you make different compounds. You can contact chemistry assignment writers to help you better understand these differences. But let me help you say, for example, that some drug molecules were found as a by-product of a reaction. The next step would be to synthesize that product so that it could be used widely. If you’re interested in organic chemistry, you’ve probably seen how hard pharmaceutical companies work to patent their own way of making the same drug. Because different reactions can be used to make the same molecule in different ways.