To complete the program, students must have at least a two-year bachelor’s degree, at least half time, and have at least a one-year commitment of full time study. The graduate program in organic chemistry requires a minimum of a two-year bachelor’s degree, at least half-time, with a commitment of at least two years.
During the first two semesters, the course work will be concentrated on lab sessions. In the second and third semesters, courses include organic chemistry, physical chemistry, and biochemistry. Students must also take a lab exam at the end of their senior year to qualify for graduation.
During the first two semesters, students will be introduced to the basics of organic and physical chemistry and basic laboratory methods. Students will receive a lab guide in the first semester but will generally learn more about laboratory techniques from their professor.
In the second semester program, students will continue to gain experience in the laboratory. Some classes such as chemical kinetics or electrochemical spectroscopy are offered in this semester. In addition, students will receive additional lab hours and lab guides as needed. These classes teach students more complex laboratory techniques.
After completing the first and second semesters, students must take the GRE examination for admission into the four-year program. For those students seeking admission into the Master’s degree program, there are additional prerequisites for graduation. Students must take a final exam at the end of the four-year program and pass the GRE exam to become eligible.
Students can choose to go to either the University of Maryland, College Park, Baltimore, or the University of Maryland at College Park. They will graduate from either program with either a Bachelor of Science in Organic Chemistry, or a Bachelor of Science in the Science of Organic Chemistry. depending on the major chosen.
The Bachelors of Science in Organic Chemistry programs provide students with a solid foundation for further studies in this exciting, yet often misunderstood area of organic chemistry. As students progress through their career path, they will be exposed to more advanced laboratory techniques and gain a deeper understanding of this important area of chemistry. Students should have strong communication skills, good writing and critical thinking, and a keen interest in the scientific method.
Students must take all the necessary prerequisites before they can apply to earn an Associate’s degree in this science. Students can choose to earn a Bachelor of Science in Biology, Chemistry, Mathematics, Physics, or Social Sciences. The Bachelor of Science in Biology provides students with an overall general education in the biological sciences.
A Bachelor’s degree in Chemistry provides students with a foundation for further studies in this exciting field. A Bachelor’s degree in Chemistry includes an introduction to the chemical bond and a thorough study of chemical kinetics. Students will study the properties of chemicals, the structure of molecules, and how energy is used in chemical reactions.
An Associate’s degree in Physical Science covers a broader topic than the Bachelor’s degree. In this program, students will learn about thermodynamics, electricity and magnetism, nuclear fission and fusion, quantum mechanics, and elementary particle physics. Electron and proton motion and the theory of nuclear decay are some of the topics covered in the Bachelor’s level Physical Science program.
Students can also enroll in a Bachelor’s Degree in Biochemistry. This program provides students with a complete overview of the biology of living organisms. It includes an Introduction to Human Biology and a laboratory course in molecular biology. Students can complete a laboratory based dissertation if they are interested.
Students should be prepared to complete a Laboratory Based Professional Practice (BLPP) examination. The exam will demonstrate the students’ ability to analyze laboratory results in an objective manner. The exam will cover topics such as data analysis, laboratory techniques, analysis and interpretation of laboratory data, and the process of laboratory data analysis.