An Associate of Science has a number of purposes. It can provide additional qualifications for a current professional, it can help bridge the gap between different academic phases, or it can give students enough knowledge to find an entry-level job in their field of study.
What is an Associate of Science in Chemistry? This program provides students with a solid foundation in chemistry and physical science so that they can either be admitted to a bachelor’s program or find employment in chemistry-related areas. Most programs will cover classes such as inorganic, organic, and biochemistry, and some programs will also focus on courses such as calculus and physics, that prepare students for pre-professional or pre-engineering programs. Most programs have laboratory study, as well as classroom study.
Chemistry is a challenging field, and students who receive their associate’s degree are sometimes more prepared for advanced chemistry courses. Laboratory experience also better prepares students for completing experiments in the real world.
The costs associated with earning this degree can vary quite a bit from one place to another. Factors that affect cost include the reputation of the school and the length of the program. Once students have narrowed down their choices, it is best to contact the schools directly to find out what the financial obligations would be.
Students who graduate with an associate’s degree in chemistry can often find work as chemistry laboratory technicians. With advanced degrees, students may find careers as biochemists, materials scientists, production chemists, research chemists, and chemistry teachers or professors. With an associate’s degree, students also have the chemistry background necessary for entering into a health professional or engineering program.
It is never too soon to start researching schools for a chemistry degree. Starting now, search for your program below and contact directly the admission office of the school of your choice by filling in the lead form.
Complete lower-division general education requirements for transferring to a university to pursue a major in the life sciences, physical sciences, or computer science. S
Complete lower-division general education requirements for transferring to a university to pursue a major in the life sciences, physical sciences, or computer science. Students interested in preparing for professional degrees in dentistry, medicine or veterinary science should complete this degree.
A specialized degree is available in Engineering (AGS). Pre-Pharmacy students should complete the Associate of Arts degree.
What can I do with this degree?
Academic Options: Transfer to a university in a life or physical sciences program, or computer science program.
Humanities and Fine Arts
Social and Behavioral Sciences
Other Requirement Options: complete MAT courses above MAT 220 and/or additional science courses from the Biological and Physical Sciences List
Required Core Courses
The Associate of Science (A.S.) in Chemistry degree program is for students who wish to pursue baccalaureate studies in the chemical or physical sciences or who plan to c
The Associate of Science (A.S.) in Chemistry degree program is for students who wish to pursue baccalaureate studies in the chemical or physical sciences or who plan to continue with professional studies, such as pre-pharmacy, pre-medical or pre-dental programs. This curriculum parallels the first two years of study offered in the chemistry programs of other colleges and universities.
Student Learning Outcomes:
Upon completion of this program graduates will be able to:
Demonstrate preparedness to successfully transfer into a chemistry program at a four-year institution.
Demonstrate a foundational knowledge of general inorganic and organic chemistry principles and concepts by applying this knowledge to the solution of problems and performance of experiments.
While adhering to all safety rules, competently perform routine laboratory tasks in the chemistry laboratory using the instrumentation for measurement and analysis that is commonly available.
Effectively collect, interpret, evaluate and communicate scientific data in multiple formats using computer technology as needed.
Program Entry Requirements:
The Associate of Science Degree in Chemistry at Southwestern Oregon Community College prepares students for transfer to a 4-year school as juniors in either chemistry or
Associate of Science in Chemistry
The Associate of Science Degree in Chemistry at Southwestern Oregon Community College prepares students for transfer to a 4-year school as juniors in either chemistry or biochemistry majors. The curriculum provides fundamental knowledge of the major fields of chemistry, covering a full year of both general and organic chemistry. Students will gain laboratory experience in organic synthesis, analytical methods, and spectroscopy. Chemistry is called the central science and as such, it serves as a foundation for careers in many fields, such as medicine, environmental science, and materials science.
Southwestern Oregon Community College is one of the few 2-year colleges in the US to offer such a program. Enjoy the comfort of welcoming campus famous for its natural beauty, small class size and first-class faculty, all while completing your Associate degree in Chemistry....
Chemistry is a central branch of the physical sciences that focuses on the properties, composition, structure, and changes occurring in living and man-made matter. Chemis
Chemistry is a central branch of the physical sciences that focuses on the properties, composition, structure, and changes occurring in living and man-made matter. Chemists apply scientific principles, develop theories, and devise complex methods and techniques for probing the laws that govern the composition of elements and reactions between substances with a goal to create new or improved products and processes for practical use. They operate specialized instruments, lab equipment and computers to monitor, measure, and evaluate changes in matter. Chemists are divided into four main specialties. Organic chemists deal with the structure, properties, and reactions of carbon-based compounds, most of which are substances originally derived from living organisms. Their work is central to developing a myriad of commercial products such as drugs, cosmetics, detergents, fuels, plastics, and fertilizers. Inorganic chemists seek to understand the behavior and the analogues for inorganic elements, the compounds of non-carbon structure, including most of the metals and minerals, and how these materials can be manipulated and used in a practical way. Their discoveries have benefited the microchip, mining, ceramics industries, medical and pharmaceutical fields. Physical Chemists focus on the quantitative relationships between the chemical and physical properties of substances. They develop testing methods for identifying and predicting the fundamental physical characteristics of materials in a solid, liquid, or gas form and for formulating new products. Their work is instrumental for finding new energy sources. Analytical Chemists perform qualitative and quantitative analyses to examine the content of substances and measure the amount of each component...