What is Chemistry?
Chemistry is the central science that deals with understanding the atomic and molecular basis of all forms of matter. The science uses observation of phenomena to better understand the constructive and destructive forces needed to modify matter. A principal part of that understanding is defining how atoms are held together to make molecules from the simplest diatomic molecules to the huge complex macromolecules of living systems such as proteins and nucleic acids. Many tools are brought to bear on this issue including the observation of changes induced in matter, spectroscopic measurements, and sophisticated calculations.
Various themes can be used to focus on special aspects of the science. Thus, courses are offered in particular areas such as analytical, inorganic, organic, and physical chemistry.
Analytical chemistry investigates the composition of a substance to identify it or its components. It often employs sophisticated electronic devices to improve quality control in manufacturing, carry out forensic and environmental investigations, and assess the quality of materials.
Inorganic chemistry is the study of elements other than carbon including metals and the molecules in which they occur such as the hemoglobin in blood. Molecules containing metals play an increasingly important role in modern industrial chemistry as catalysts to make new materials economically.
Organic chemistry explores the nature and behavior of molecules based on carbon. Learning to unite carbon atoms has led to many new materials including miracle drugs, lubricants, adhesives, and the myriad of polymers that provide advanced materials for countless applications.
Physical chemistry details the fundamentals of atoms and molecules and provides detailed information about attractive and repulsive forces, bonding and related phenomena, energy changes in reactions, etc. It provides insights which allow a deep understanding of chemical phenomena.
Career Opportunities in Chemistry
Chemistry contributes to society in many ways which provide numerous possibilities for careers. Professional chemists can work as technicians or researchers in industry developing or improving products, analyzing materials, synthesizing new compounds such as pharmaceuticals, solving other problems, or they can pursue technical sales, management, or administration of the business. In government laboratories chemists are responsible for monitoring the environment, defining standards for foods, drugs, and other consumable chemicals, evaluation of patents, and assisting with chemical aspects of laws and regulations that protect society. Chemists serve the public more directly in hospitals and medical laboratories and as teachers at all educational levels.
Chemistry provides an excellent preparation for other professions including medicine, dentistry, pharmacy, law, business, and the applied sciences.
Salary Trends in Chemistry
Salaries earned by chemists are dependent on degree level and on whether they are employed in industry, government, or academe. According to a recent survey by the American Chemical Society (2008), the overall median salaries by degree are the following:
Industrial salaries are the highest for all degrees; academic salaries are lower. Industry employs 55% of chemists; academe, 24%; the remainder are employed by government and service companies.
The average annual salary increase for the past decade has been 5.7%, which compares favorably with a decade average consumer price index of 3.0%.
High School Preparation
It is highly recommended that students take at least one year of high school chemistry. Since university physics is a prerequisite to the major, a course in high school physics is also recommended.
The quantitative nature of many chemical endeavors requires a solid mathematics background. High school preparation should include as much mathematics as possible, including algebra, geometry, trigonometry, and, if available, calculus.
How to Major in Chemistry
To major in chemistry, a student should enroll in Chemistry 120–130 (or 128–138) and Math 141–42 during the first year. A student should declare the major by meeting with Professor John E. Bartmess and requesting a chemistry faculty advisor assignment.
There are two bachelor of science majors for chemistry: the B.S. major in chemistry that satisfies all the requirements of a major in the College of Arts and Sciences and the American Chemical Society (ACS) certified B.S. major in chemistry. The ACS major is the more demanding degree.
A degree in chemistry with honors is also available. Please check the current undergraduate catalog for details.
Requirements for Chemistry
The minimum requirements for the B.S. degree with a major in chemistry in the College of Arts & Sciences are as follows:
Chemistry 120–130 or 128–138
Mathematics 141–142 or 151–152
Physics 221–222, 135–136, or 137–138
Chemistry 240, 310, 319, 350–360 or 358-368, 369, 471–481 or 473–483, and 479, plus 10 hours of additional work in chemistry at the 200-level or above that includes at least one laboratory course or lecture/laboratory course; up to 4 hours of Biochemistry and Cellular and Molecular Biology 401, 402 or Geology 460 may be applied to the 10-hour requirement.
Special Programs, Co-ops, and Internships
Students interested in co-op opportunities should see Professor J. L. Adcock in Buehler 501.
Highlights of Chemistry
The Department of Chemistry offers two B.S. degrees. The B.S. degree with a major in chemistry is a traditional liberal arts degree intended primarily for students who have career objectives in fields such as medicine, dentistry, pharmacy, business, education, etc. With the proper choice of mathematics, physics and chemistry courses, it is also suitable for students planning careers in chemistry.
The Bachelor of Science in Chemistry degree is intended for students who plan to make chemistry their career and requires a high concentration of mathematics and experimental chemistry. This program is certified by the Committee on Professional Training of the American Chemical Society.
Both the B.S. degree and the B.S. in Chemistry degree are available as honors degrees with completion of appropriate courses (see the current undergraduate catalog).
Since the two degrees provide for various career goals, students should choose a faculty advisor in the Department of Chemistry at the earliest opportunity.
“Ready for the World” is part of a long-range plan to transform the UTK campus into a culture of diversity that best prepares students for working and competing in the 21st century. Thus students are encouraged to actively participate in the diverse cultural programs offered on campus. Some of these events include the guest lecture series, cultural nights at the International House, and international film screenings. Visit the Center for International Education web site (http://web.utk.edu/~globe/about.shtml) or the Ready for the World web site (http://www.utk.edu/readyfortheworld/) for more information on upcoming cultural programs and activities. Learn more about UT’s Ready for the World initiative to help students gain the international and intercultural knowledge they need to succeed in today’s world.
Students are also encouraged to develop a global perspective within their academic program through study abroad. Studying abroad options do exist for science majors! Possibilities include (but are not limited to) studying parasitology in Botswana, environmental chemistry in Fiji, igneous petrology in Iceland, or particle accelerator physics in London. In addition to taking science courses abroad, many science majors have elected to fulfill their language requirement and/or general education courses overseas.
Consult an academic advisor early in your academic career about the best time for you to study abroad as well as what courses you may need to take. For more information about program options, the application process, and how to finance study abroad, please visit the Programs Abroad Office website.
Following this four-year plan will help you stay on track to graduate in four years. Milestone courses have been identified as the minimum courses that must be completed.
|Freshman Year||Credit Hours|
|Chemistry 120-130 or 128-138||8|
|Mathematics 141-142 or 147-148 or 151-152||6-8|
|Milestone courses: English 101, Math 130 or ACT Math 28, and Chemistry 120|
|Sophomore Year||Credit Hours|
|Chemistry 350 (or 358)-360 (or 368) -369||8|
|Arts and Humanities
|Physics 135-136 or 137-138 or 221-222||8-10|
|Foreign Language or General Electives||6|
|Milestone courses: English 102, Chemistry 130, and Math 142 or 152|
|Junior Year||Credit Hours|
Non US History Sequence
|Chemistry 471-481 or 473-483||6|
|Chemistry 479 (WC)||2|
|Arts and Humanities||3|
|Senior Year||Credit Hours|
|Chemistry 406 (OC)||1|
|Upper Level Distribution||6|
|Upper Division Electives||6|
|GRAND TOTAL (minimum)||126|
For More Information
Department of Chemistry
552 Buehler Hall
Knoxville, Tennessee 37996-1600
Fax: (865) 974-3454
The information on this page should be considered general information only. For more specific information on this and other programs refer to the UT catalog or contact the department and/or college directly.