The chemistry undergraduate major and its specialized options at North Dakota State University provides opportunities for personal achievement and professional training that are typically not available either at neither nor smaller universities. Faculty teach all major courses. Students use state-of-the-art instrumentation in their laboratory courses. Many students get involved in fundamental and applied research with faculty research groups and have growth experiences commonly available only to graduate students. Future secondary chemistry and science teachers can participate in supervised laboratory teaching and peer mentoring programs.
Industry and graduate schools are well aware of the quality of the undergraduate education at NDSU and actively seek out our graduates. Scholarships, fellowships and employment in research groups or in supervised teaching activities can cut the already modest cost of an NDSU education by one-half or more.
The Department of Chemistry and Biochemistry is fully accredited by the American Chemical Society (ACS) and offers programs leading to an ACS-certified Bachelor of Science degree. Options in biochemistry or coatings and polymeric materials can be added to the curriculum. A pre-professional option for those planning on medical, dental and other professional schools is also available. A chemistry major may be combined with secondary school teacher certification with as little as one additional semester for student teaching.
The prescribed curriculum provides a solid grounding through classroom and laboratory work in all of the main areas of chemistry. Major laboratory courses are designed to utilize the latest synthesis and characterization methods and employ advanced, computer-interfaced instrumentation.
Our pre-professional option includes the course work in biological and biochemical sciences that easily meets the requirements of medical, dental and other health-related professional schools. A chemistry major offers rigorous pre-professional education, as well as a back-up option in case career plans change in the future.
Almost every chemistry faculty member is heavily involved in forefront research, and undergraduates are encouraged to participate in that research. Students gain important skills and are exposed to the excitement of the hunt for new knowledge. This research experience often helps students define career goals more sharply.
People often think of the professional chemist as one who stands at a workbench in an industrial laboratory carefully manipulating chemicals or instruments. A lot of chemists are employed this way. This is often quite satisfying since many people are drawn to
chemistry because they enjoy laboratory work. There are, however, many other tasks besides laboratory research in which a chemist may engage, and many different careers for which he or she can prepare for a degree in chemistry. A chemist may be employed in government, business, industry or education. Besides basic and applied research (the lab bench), an industrial chemist may be involved in production, technical service (assisting people who use products), national and international marketing and sales, or management and corporate planning. Some chemists prefer self-employment through small business or consulting firms.
Analytical chemists are in demand for services to other departments within a chemical company, for quality control in large and small concerns, and for environmental monitoring by industrial, governmental and private organizations. Organic chemists, also in great demand, study new pharmaceuticals, polymers and other compounds. Materials chemists are needed by all high-tech industries for their synthesis and characterization skills. Inorganic chemists work on the full range of synthesis, characterization and application of chemical compounds. Physical chemists model chemical structures and reactions, and design experiments and equipment to study them. The Department of Chemistry and Biochemistry offers specialized education and training in each of these fields.
A degree in chemistry can serve as excellent preparation for careers in medicine, dentistry and other health professions. A chemistry degree also can lead to law school, and perhaps a career in patent law, a very demanding and in-demand technical profession. About half of NDSU's chemistry graduates go on to graduate or professional schools. Almost all the rest go directly into industry. Average entry-level salaries for chemistry graduates is $44,200 to $81,800, based on 2015 data from www.payscale.com. For chemists who have advanced degrees, salary and opportunities are often much greater.
Faculty and Facilities
The Department of Chemistry and Biochemistry has 17 faculty members. All of the faculty have doctorate degrees from leading universities.
The Department of Chemistry and Biochemistry’s teaching and research facilities are located in two connected buildings—Ladd and Dunbar Halls. Some additional laboratories are located in the Quentin Burdick Building. Students are trained in the use of state-of-the-art equipment, some of which is duplicated at only a few sites in the world. Some undergraduate students are trained to use several powerful and sophisticated laser systems, and some have even built lasers that were put directly to work on research projects. Nuclear magnetic resonance spectrometry, X-ray diffraction and fluorescence are as up-to-date as one would expect to find at any major research university. Theoretical chemistry researchers use some of the most powerful computers on the NDSU campus.
A number of endowed scholarships and fellowships are available to highly qualified applicants. The Department of Coatings and Polymeric Materials offers industry-funded scholarships and fellowships to chemistry majors interested in taking the coatings and polymeric materials option. In addition, more than half of the students majoring in chemistry are engaged in research and earning substantial portions of their living expenses. Financial support for research experiences is provided principally by grants and contracts of faculty researchers, various summer Research Experiences for Undergraduates programs, and national scholarship and fellowship programs, such as the Goldwater Foundation. Since 1992, nine students in the department have been awarded Goldwater Fellowships, which cover all educational expenses. Students interested in secondary school teaching have additional funding opportunities as laboratory teaching assistants and discussion leaders in a peer-tutoring program known as Supplemental Instruction. These positions not only provide an opportunity for help toward meeting expenses but also in adding relevant experience to resumes.
High School Preparation
Ideal high school preparation for a chemistry major includes four years each of English and mathematics, and a year each of biology, chemistry and physics. Experience with personal computers is also desirable. Strong writing and communication skills are as important to success in chemistry as they are in any technical field.
|General Education Requirements||Credits|
|First Year Experience|
|UNIV 189 - Skills for Academic Success||1|
|COMM 110 - Fundamentals of Public Speaking||3|
|ENGL 110, 120 - College Composition I, II||3, 3|
| ENGL 321 - Writing in Technical Professions or |
ENGL 324 - Writing in the Sciences
|MATH 165 - Calculus I||4|
|Science & Technology|
| CHEM 121, 121L - General Chemistry I and Lab or |
CHEM 150, 160 - Principles of Chemistry I and Lab
| CHEM 122, 122L - General Chemistry II and Lab or |
CHEM 151, 161 - Principles of Chemistry II and Lab
|PHYS 251, 251L - University Physics I and Lab||5|
|Humanities & Fine Arts||6|
|Social & Behavioral Sciences||6|
|College and Department Requirements||Credits|
|Hum/Soc. Science Electives (B.S. Degree)||6|
|Hum/Soc. Science Electives (B.A. Degree)||12|
|Second Year Language Proficiency (B.A. Degree)||-|
|BIOC 460, 460L - Foundations of Biochemistry and |
Molecular Biology I and Lab
|CHEM 341, 342 - Organic Chemistry I and II||3, 3|
|CHEM 353, 354 - Majors Organic Chemistry Labs I and II||1, 2|
|CHEM 364, 365 - Physical Chemistry I and II||3, 3|
|CHEM 380 - Chemistry Junior Seminar||1|
|CHEM 431, 431L - Analytical Chemistry I and Lab||5|
|CHEM 471 - Physical Chemistry Lab||2|
|CHEM 491 - Seminar||2|
|MATH 128 - Introduction to Linear Algebra||1|
|MATH 166 - Calculus II||4|
|MATH 259 - Multivariate Calculus||3|
|PHYS 252, 252L - University Physics II and Lab||5|
|Electives||up to 23|
This sample curriculum is not intended to serve as a curriculum guide for current students, but rather an example of course offerings for prospective students. For the curriculum requirements in effect at the time of entrance into a program, consult with an academic adviser or with the Office of Registration and Records.
Ladd Hall is located on Albrecht Boulevard, just west of the Memorial Union (Campus Map)
Department of Chemistry and Biochemistry
North Dakota State University
Ladd Hall 104B
Dept #2735, PO Box 6050
Fargo, ND 58108-6050
Office of Admission
North Dakota State University
Dept #5230, PO Box 6050
Fargo, ND 58108-6050