Details of chemistry! 😁

Chemistry types

Organic and Inorganic ChemistryOrganic chemistry focuses on organic matter. Organic in chemistry means something different than what we associate when we see it on labels at the grocery store. That organic means that foods or crops were grown without pesticides. The definition of organic in chemistry is anything that contains carbon, usually living matter that contains a carbon-hydrogen bond. Organic matter makes up most of the world around us, including humans. Organic matter not only contains carbon but also nitrogen, hydrogen, and oxygen, with a few others infrequently. The muscles in our body, the leaf on a plant, and many other things all around us are made up of these few atoms. Since this matter is so important to life, it is an important field of study. Many of the every day items that we use, such as soap, fuel, and plastics are made from organic materials. Organic chemistry helps scientists determine the best way to make these products even better. Inorganic chemistry studies matter that is not organic. This matter may still contain some carbon (it's such a common element it's found in inorganic materials as well) but they are not the matter that makes up life. This chemistry studies how this non-organic matter reacts, changes, and is shaped. Inorganic chemistry is used in making different kinds of metals, cleaning agents (such as Clorox), and fertilizers. In industry and at home there are many materials that we use that are inorganic. These had to be discovered through inorganic chemistry and they continue to be improved with inorganic chemistry. Lesson SummaryThere are five main types of chemistry: organic, inorganic, physical, analytical, and biochemistry. Physical chemistry is the study of how matter behaves and the physical arrangement of molecules. Analytical chemistry involves identifying matter and quantifying it. Biochemistry is the chemical processes of biology, such as chemical reactions in the body. Organic chemistry is the study of organic matter that makes up biology, primarily matter with carbon, but also with hydrogen, oxygen, and nitrogen. Inorganic chemistry is the study of matter that is not organic. Chemistry, generally speaking, is the study of matter and how matter changes. Each of these types of chemistry just narrows the focus.



The Types of ChemistryWhen we think about chemistry we often think about combining chemicals and watching them explode. This is certainly a part of it, but did you know that there are many different types of chemistry? Chemistry is the study of matter and how matter changes. When chemists watch chemicals explode they are actually studying how those chemicals change, into light, sound, and heat specifically, when they are combined. There are five main types of chemistry: physical, analytical, biochemical, organic, and inorganic. The different types focus on different aspects of matter. Let's take a closer look at each one. Physical ChemistryPhysical chemistry is the study of how matter behaves and its physical arrangement. This includes rates of reactions, or what causes a reaction to occur quickly or slowly. For example, when we mix baking soda and vinegar we almost immediately see intense foaming. This has a quick rate of reaction. And yet, if we subject iron to air and water, it has a much slower rate of reaction and may take years to rust. Physical chemistry can also study how light interacts with matter. This is important for spectroscopy. Spectroscopy is a method that we use to determine what type of chemicals are in a substance. Since different types of matter will interact with light differently, we can identify it based on how it interacts with light. This has helped us know what faraway planets are made of. Other examples includes studying the shape of a molecule, and how stable a substance is. In general, physical chemistry studies matter on an atomic level. Analytical ChemistryAnalytical chemistry focuses on identifying and quantifying matter. It asks 'What is this? How much is there is in this substance? It may use some of the techniques from physical chemistry, among others, in order to determine this. There are many methods to identify and quantify matter. This may be as simple as measuring the ionic concentration to determine how much salt is in a material, or as complex as seeing how much a specific microbe grows to determine the amount of folate is in a material. Both of these methods identify and quantify matter. BiochemistryBiochemistry looks at chemical principles in biology. For example, in the human body, oxygen attaches to hemoglobin when we breathe, which is then transported to the blood. This oxygen is then used to react with other substances, allowing us to survive. Another example is the different reactions that occur when sunlight hits a plant, which is then converted to energy. Biochemistry is an important aspect in the medical world. It helps us to know what nutrients we need in our body, or diagnose mysterious symptoms. By knowing how the body is supposed to work we can figure out how to fix it when it doesn't.



Fundamentally, chemistry is the study of matter and change. The way that chemists study matter and change and the types of systems that are studied varies dramatically. Traditionally, chemistry has been broken into five main subdisciplines: Organic, Analytical, Physical, Inorganic, and Biochemistry. Over the last several years, additional concentrations have begun to emerge, including Nuclear chemistry, Polymer chemistry, Biophysical chemistry, Bioinorganic chemistry, Environmental chemistry, etceteras. All of these areas of chemistry are addressed in our classes here at UWL to some extent, and by the research interests of our faculty in the Chemistry Department. The following descriptions of the five major subdisciplines were written by several of our faculty members in their field of expertise. All of our faculty members would be happy to elaborate, and/or discuss other aspects of chemistry that are not described below!

Inorganic chemistry is commonly thought of as those areas within chemistry that do not deal with carbon. However, carbon is very important in many inorganic compounds, and there is a whole area of study known as organometallic chemistry that is truly a hybrid of the traditional disciplines of organic and inorganic chemistry. Some areas of inorganic chemistry that are especially important are catalysis, materials chemistry, and bioinorganic chemistry. Catalysts are chemical entities that increase the rate of a reaction without being consumed, and are typically based upon transition metals (usually) organometallic complexes of transition metals).This is an extremely important area to industry, and many of the chemists who would be identified as inorganic or organometallic chemists work in this area. Materials Chemistry is an area concerned with the design and synthesis of materials that allow the advance of technologies in nearly every area of society. Often, inorganic chemists working in this area are concerned with the synthesis and characterization of solid state compounds or inorganic polymers such as silicones. Bioinorganic chemists study the function of metal-containing compounds within living organisms. Students who concentrate in inorganic chemistry often go on to work in industry in polymer or materials science, do research or teach in inorganic chemistry, or pursue other related job opportunities.



Additional Activities Chemistry Types Consider the scenarios below and determine which area(s) of chemistry are applicable or represented in each circumstance. Oftentimes multiple areas of chemistry may be combined within a business or job. Scenario 1 You were offered an internship during school with a local company that involves chemistry. In this position, you are required to analyze unknown samples using a variety of chemical instruments. These instruments are able to determine the composition of the samples (i.e. identity). You are also taught methods to quantify the different chemicals present in each sample. Scenario 2 You start a position with a pharmaceutical company after completing your degree in chemistry. Over the years you stay with the company as your role changes. In the beginning, you synthesized new medicines in the laboratory using a variety of solvents and reactants. After synthesizing the chemicals you purified them to ensure there were no trace contaminants. A couple of years later you decide to change positions within the company. At this time you are studying how the new medicines affect human subjects and if there are any adverse effects. In order to do this, you collect samples from the participants, such as blood and urine, while recording all observations. Scenario 3 You start working with a company that focuses on environmental cleanup. In this position, you collect soil samples in the field and bring them back to the laboratory for analysis. You determine the metals present in the samples, such as lead and iron. You also try to determine other molecules that may be contaminating the soil, such as pesticides. In addition to identifying these contaminants, you will use additional instrumentation and procedures to quantify them. Solutions 1. Analytical chemistry - this involves separating components in mixtures using instrumentation and quantification. 2. Organic chemistry - synthesis of compounds; biochemistry - studying effects of medicines on the body. 3. Inorganic chemistry - analyzing inorganic compounds such as metals; analytical chemistry - analyzing organic compounds using instrumentation.