Why Study Chemistry Is the most common questions students & their parents ask before electing their SSC & HSSC subjects.
Studying chemistry has lost its popularity over the last decade. The same has happened to other natural sciences, such as mathematics and physics. The need for science professionals is not diminishing, and there is already a shortage of science teachers in the education sector.
Studying Chemistry and a woman practicing Chemistry as a field is important and is closely linked to many other fields, such as medicine and food sciences. In this article, we will explain why studying chemistry is worthwhile. We also tell you where chemistry can be studied and how the real exam relates to your studies.
Significance of chemistry and applications
Chemistry is present everywhere from the food industry to the papermaking and clothing industries. There are so many chemical technology products in our daily lives that we may no longer even pay attention to it. Of particular importance at present is materials research in the field of chemistry, one of the goals of which is to produce more environmentally friendly materials to replace, for example, plastic.
The amount of plastic accumulating in nature has been a concern for years, but in recent years, the issue has also materialized to the public as images of the shores of paradise islands filled with plastic rubbish have spread on social media. Materials research in the field of chemistry develops plastic substitutes but also new recycled fabrics and other materials that can be utilized in the clothing industry.
The use of recycled fabrics is currently limited by their price, but in the future, more environmentally friendly clothing materials are expected to become more common. This also requires changes in consumer attitudes, and a decline in the popularity of low-cost clothing.
Studying chemistry is tough, as the picture of a woman looks.
Typical chemical research topics include many industrial processes, such as the pulp bleaching process. The aim of chemistry is to make the process more environmentally friendly so that not so many harmful substances end up in nature. In industrial processes, the scale is large, so even small changes and development steps can bring about big changes.
Chemistry also plays a key role in drug development, which combines many disciplines. Finnish pharmaceutical companies are also world leaders in this field, so there will be a demand for organic chemists that develop drug molecules also in the future. Drug development is also closely linked to research work in medicine.
For example, many slot machines are built in such a way that the player combines different colored substances with each other and gets plush winnings from them. So as you can see, chemistry still does not parasitize in its absence at online casinos either. Of course, the career in chemistry in casinos is not known, but it will not stay out of Malta either. In addition, is this no wonder, after all, the topic itself is very delicious and allows for a wide range of game solutions now and in the future. Therefore, we are waiting with great interest for all that the future will bring when it comes.
Typically, a student majoring in chemistry first graduates, after about three years of study, with a Bachelor of Science and later, after about two additional years, with a Master of Philosophy. Students at Aalto University’s School of Chemical Engineering graduate with a bachelor’s degree in engineering and then with a master’s degree in engineering.
In addition to universities, chemical engineering and process engineering as well as materials science can be studied at many polytechnics all over world. Graduates of polytechnics in the fields of technology usually receive a degree in engineering. Laboratory technicians and laboratory analysts produced by the vocational school also work in chemistry laboratories.
Why study chemistry: Practice
Chemistry is a practical field, and studies in the field include a lot of practical training in all educational institutions. Already in the first year, students get to the laboratory to do experiments and study phenomena in practice. Laboratory work is seamlessly linked to theoretical courses, and during laboratory work, students also learn to keep a diary of the progress of the work and to write a report on the results of the work.
Chemistry subjects include, for example, physical chemistry, inorganic chemistry, and organic chemistry.
Of these, the former, physical chemistry, specifically applies theories and methods of physics to solve chemical problems. The study focuses on the properties of a substance, various intermolecular interactions and changes in state. Research is conducted at both the molecular level and the nano and macro levels. In addition to experimental chemistry, the phenomena of physical chemistry are modeled by theoretical methods. In this case, the laboratory is a computer program that can already take into account, for example, the effect of a solvent.
Studying organic chemistry, the subject of research is the chemistry of carbon compounds. Carbon is a diverse element and is also abundant in natural compounds, making organic chemistry one of the most traditional fields of chemistry.
Circuit of organic chemistry
Organic chemistry seeks to synthesize molecules into new synthetic pathways and, on the other hand, also to create entirely new organic molecules. Organic molecules can be widely used, for example, in medicine.
Organic compounds account for a huge proportion of all known compounds, about 95%, so there is indeed enough work to do for those applying to the field of organic chemistry. Indeed, many who have studied organic chemistry work as researchers.
Inorganic chemistry focuses on the study of inorganic compounds, such as minerals, metals, and a wide variety of organometallic compounds. The line between organic and inorganic chemistry is difficult because organometals are studied in both fields of chemistry. Symmetry plays a key role in the structure of inorganic substances, as many of the properties of the compounds are a direct consequence of the symmetry of the molecule.
Chemical Engineering studied in the field of engineering is a field of process engineering that focuses on the development of chemical processes on an industrial scale. In addition to chemistry, chemical engineering skills also need physics and mathematics as well as mechanical engineering skills. Thus, those who have studied chemical engineering are not actually chemists, but specifically engineers who specialize in the development, automation and optimization of industrial processes.
A related field of chemistry is also bio analytics, which can be studied at polytechnics. Bio analysts work in laboratories and in the services of universities or other research institutes. The job description includes sampling and analytics as well as analytics quality assessment. As a field of study, bio analytics is suitable for a person who knows that they want to work in a laboratory and focus specifically on doing analytics. Chemists working in laboratories, on the other hand, usually work in managerial positions and may no longer be involved in sampling or analytics themselves.
Chemical employment prospects
The study of chemistry is multidimensional, the salary level of chemistry professionals with a master’s degree is generally good, but on the other hand, the employment situation is not particularly good in many countries around the world due to their mismanaged educational systems and industrial advancements.
There can be as many as hundreds of applicants for a vacancy, so getting a job is particularly challenging in certain areas. More science experts, on the other hand, are wanted, and there is quite a lot of work to be done for teachers of mathematics, physics and chemistry.
Partly due to the poor employment situation in certain countries, studying chemistry no longer attracts young people in the same way as before. Degree programs in the chemical fields are relatively easy to access throughout world. As large age groups retire, jobs become vacant and, on the other hand, active research can create new jobs for companies. Thus, if the natural sciences are of interest, studies in the field of chemistry are a rational option and an investment in the future. The need for science experts will never disappear completely, and if the employment prospects in your country are not good, professionals in the field can apply for jobs abroad. There are plenty of jobs possibility around the world for chemistry professionals.