Exercise Physiology, Bachelor of Science
Department of Biological Sciences
College of the Environment, Forestry, and Natural Sciences
This degree prepares students for the job market in areas such as clinical exercise physiology as well as for entry into graduate programs in the exercise sciences or professional programs in the health professions.
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To receive a bachelor's degree at Northern Arizona University, you must complete at least 120 units of credit that minimally includes a major, the liberal studies requirements, and university requirements as listed below.
- All of Northern Arizona University's diversity, liberal studies, junior-level writing, and capstone requirements.
- All requirements for your specific academic plan(s).
- At least 30 units of upper-division courses, which may include transfer work.
- At least 30 units of coursework taken through Northern Arizona University, of which at least 18 must be upper-division courses (300-level or above). This requirement is not met by credit-by-exam, retro-credits, transfer coursework, etc.
- A cumulative grade point average of at least 2.0 on all work attempted at Northern Arizona University.
The full policy can be viewed here.
In addition to University Requirements:
- At least 80- 81 units of major requirements
- Up to 9 units of major prefix courses may be used to satisfy Liberal Studies requirements; these same courses may also be used to satisfy major requirements.
- For this major the liberal studies prefix is BIO. Contact Biology Advisement for information about liberal studies courses that are recommended for this major.
- Elective courses, if needed, to reach an overall total of at least 120 units.
Students may be able to use some courses to meet more than one requirement. Contact your advisor for details.
Minimum Units for Completion | 120 |
Major GPA | C |
Highest Mathematics Required | MAT 125 |
Fieldwork Experience/Internship | Optional |
Research | Optional |
University Honors Program | Optional |
Accelerated Undergraduate/Graduate Plan | Optional |
AZ Transfer Students complete AGEC-A | Recommended |
Progression Plan Link | View Progression Plan |
Purpose Statement
The Bachelor of Science degree in Exercise Physiology consists of core studies in areas such as chemistry, physics, anatomy and physiology, and general biology, as well as more advanced courses specific to the study of physiology and movement during exercise. Students will develop an understanding of human physiology, human movement, and the biological and chemical responses of the body to acute and chronic (training) exercise in the core Exercise Science classes; Introduction to Exercise Science, Exercise Physiology and its lab, Functional Anatomy and Kinesiology, Exercise Testing and Prescription and its lab, and in their senior capstone. With the help of advisors, students choose approved Exercise Physiology electives, which cover a wide range of disciplinary areas and are selected based on the individual student’s career or graduate school goals. These include courses in psychology, microbiology, genetics, pathology, cell and molecular biology, amongst many others.
Research opportunities are available for students in individual faculty’s research labs, as well as in NAU’s research centers and institutes, such as the Center for Bioengineering Innovation (CBI). Exercise Science students also have the option of completing an internship in sports performance or cardiac rehabilitation if they are considering a career in clinical exercise physiology.
Students graduating with an Exercise Physiology degree will be well prepared for careers in clinical exercise physiology, for admission into graduate programs in exercise science and for admission into professional programs such as physical therapy, physician’s assistant, occupational therapy, athletic training, and medicine.
Student Learning Outcomes
1. Identify, describe, and apply major concepts, theoretical perspectives, and empirical findings in exercise physiology, including:
- Basic molecular and cellular units of structure that define the function of all living things
- Fundamental principles of biology, such as the central dogma, diversity of life, and evolution
- Homeostasis and the role of temporary perturbation of homeostasis in exercise adaptations
2. Apply scientific and quantitative reasoning in data interpretation and analysis:
- Applying the scientific method and the processes of inquiry and discovery as they relate to questions in exercise physiology
- Collecting, analyzing, and interpreting scientific data with application to problems involving human physiology, including health and disease, and the effects of acute exercise and exercise training
- Graphically presenting scientific data to communicate scientific findings in exercise physiology
- Developing proficiency in the quantitative skills (e.g. arithmetic and algebraic methods,
- statistical analyses) necessary to analyze physiological problems, with an emphasis on
- quantitative techniques applicable to physiological and biomedical fields
3. Effectively communicate and apply evidence-based recommendations in physiological sciences.
- Interrogate primary scientific literature and access specialized resources available within
- exercise sciences (e.g. Exercise is Medicine ®)
- Apply exercise physiology principles to interpret data in evaluating the strength of evidence and conclusions.
- Synthesize empirical findings related to exercise science, and communicate the findings through collaboration, writing, and oral presentation
4. Synthesize fundamental concepts, apply core knowledge, and conduct civil discourse in exercise physiology as it relates to human health and disease.
- Apply specialized knowledge of the role of exercise in health and the acute and chronic
- metabolic, cardiorespiratory and neuromuscular responses to exercise to new contexts and situations to make clinical recommendations.
- Apply exercise physiology principles to interpret data in evaluating the strength of evidence and conclusions.
- Analyze the interdisciplinary role of science as applied to human health challenges, including
- health issues affecting the global community and health disparities among various communities
- Apply quantitative reasoning skills to solve novel problems and clinical examples related to exercise physiology in humans.
Major Requirements
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This major requires 80-81 units distributed as follows:
- Exercise Physiology Common Course Requirements: 50 units
- Physical Science Requirements: 30-31 units
Take the following 80 - 81 units:- BIO 181, BIO 181L, BIO 182, BIO 192, BIO 201, BIO 201L, BIO 202, BIO 202L, BIO 334, BIO 338, BIO 338L, BIO 442, BIO 460, BIO 460L (32 units)
- NTS 135 (3 units)
- BIO 365W which meets the junior-level writing requirement (3 units)
- Select from: BIO 412C, BIO 420C, BIO 454C, BIO 462C, BIO 465C, BIO 485C which meets the senior capstone requirement (3 units)
- Select at least 9 additional units of exercise science electives, of which at least three must be upper division, from the following list (9 units):
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- AT 200
- BIO 154, BIO 205, BIO 205L, BIO 240, BIO 320, BIO 344, BIO 350, BIO 408*, (BIO 416, BIO 416L), BIO 420C (when not used as a capstone), BIO 424, BIO 444C, BIO 484, BIO 485, BIO 497
- (CHM 320 and CHM 320L) or CHM 440
- ES 260
- FW 330, FW 343, FW 405
- HS 200
- MAT 136 (may not be used for both the math requirement and a major elective), MAT 137
- ME 240
- NTS 356, NTS 425
- PHI 332
- PRM 216
- PSY 227, PSY 240, PSY 250, PSY 255, PSY 260
- SOC 318
- STA 371
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*Note: Internship (408 or 408C) requires outside placement and must be planned at least six months before the internship is to begin. See Biology Advisement for more information.
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Physical Science RequirementsPlease note that many of the following major requirements also satisfy Liberal Studies requirements.
- Basic chemistry sequence: CHM 151, CHM 151L, CHM 152, CHM 152L (9 units)
- Organic chemistry course: CHM 230 or CHM 235 (3-4 units)
- Biochemistry course: CHM 360 or CHM 461 (3 units)
- Math combination: (MAT 125 or MAT 136) and (STA 270 or PSY 230) (7 units)
- Physics sequence: (PHY 111 and PHY 112) or (PHY 161, PHY 262, and PHY 262L) (8 units)
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All prerequisite coursework must be completed with grades of C or better.
You may not pursue the Biology BS, Biomedical Science BS, Ecology and Evolutionary Biology BS, or the Microbiology BS in conjunction with this degree.You must attain a grade of "C" or better in CHM 151, CHM 151L, CHM 152, CHM 152L; BIO 192, BIO 201, BIO 201L, BIO 202, BIO 202L, BIO 334, BIO 338, BIO 338L; PHY 111, PHY 161, MAT 125; ENG 105.
General Electives
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Additional coursework is required if, after you have met the previously described requirements, you have not yet completed a total of 120 units of credit.
You may take these remaining courses from any of the academic areas, using these courses to pursue your specific interests and goals. You may also use prerequisites or transfer credits as electives if they weren't used to meet major, minor, or liberal studies requirements.
We encourage you to consult with your advisor to select the courses that will be most advantageous to you.
Additional Information
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Be aware that some courses may have prerequisites that you must also successfully complete. For prerequisite information, click on the course or see your advisor.
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This program is available as an Accelerated Undergraduate/Graduate Plan wherein a student may start a master's degree while simultaneously completing their bachelor's degree.