A chemistry degree allows one to develop superb laboratory techniques which overlap with another degree. Skills acquired in the field of chemistry are useful in areas of physics, medicine, biology, geology, earth science, and engineering. With the studies of chemistry in an environment and social context, you gain knowledge and awareness of ethical implications and other issues relating to environmental sustainability and impact.
With a chemistry degree, you develop a robust numerical ability which gives you transferable skills such as maintaining and monitoring data and records, written and oral communication, teamwork, analysis, and problem-solving skills, IT and technology skills, time management and organizational skills as well as research and presentation skills.
The best part of a chemistry degree is that you can specialize in organic, physical, inorganic or analytical chemistry which gives you an upper hand in the employment world. Nevertheless, you can also specialize in areas of applied chemistry such as biochemistry or cheminformatics, or even develop an interest or knowledge in more advanced fields of chemistry where there may be in demand such as forensic investigation and forensic nanotechnology.
By and large, the study of chemistry has opened doors to vast opportunities and sectors which means that your future career path is not restricted only to the lab. Some of the career options pursued with chemistry degree include:
If you have an inquisitive mind that is always interested in studying the use of a live organism to solve the societal problems, then a career as a biotechnologist is best suitable for you. Biotechnologists use biological organisms to make or develop products that are uniquely designed to improve the lives of people through improved food and health. They study the chemical, physical and genetic attributes of cells, tissues, and organism and practically use that knowledge to develop advanced pharmaceutical, environmental, medical and agricultural products. This career involves manipulating living organisms to enhance medicines, food productivity, vaccines, and energy efficiency. Depending on your scientific discipline, biotechnologists can be categorized regarding industrial, agricultural, environmental, and medical and biofuel biotechnologists.
Analytical chemists tend to have an eye for detail and good technical skills. They use vast range of methods to investigate the chemical natures of substances. The analytical chemist aims to identify and fully understand how specific substance behaves in a particular condition. Their primary role varies depending on the setting. For example in the pharmaceutical industry, analytical chemist plays a vital goal in studying the chemical as well as the physical property of a drug substance. This study of chemical and physical properties of a specific drug substance will help him or her to determine the quality and stability of that substance.
Pharmacologist aims at doing extensive research to develop a new or an existing drug. To develop these drugs, pharmacologists should understand how the drugs work so that they can be used safely and effectively. Through vitro research which involves the use of cells and tissues, pharmacologist can investigate how certain drug interacts with biological systems. Consequently, by using vivo research, which involves the use of whole animals, pharmacologist can predict how a certain drug affects humans.
Other career paths in chemistry are a forensic scientist, nanotechnologist, research scientist, toxicologist, a chemical engineer, healthcare scientist, and laboratory technician.
More than half of chemistry students go to employment within six months after graduating from a college or university. Will you be among them? At homeworkdoer.org, we give a platform for organic chemistry homework solution in case you are troubled by your organic chemistry or any other branch of chemistry. All you have to do is feel free to contact our live support for our free quote.