Selected Educational Outcomes
The program leading to the Bachelor of Science degree with a major in physics is designed to prepare students to enter graduate programs in physics or in astronomy, or to embark upon careers in government, industry, or education. Examples of these outcomes include the following:
- students will demonstrate knowledge in the fundamental branches of physics: mechanics, electromagnetism, and quantum mechanics;
- students will demonstrate knowledge in several elective areas within the field of physics, including (but not limited to) thermodynamics, electronics, optics, and computational physics;
- students will apply the techniques of mathematical analysis (algebra, geometry, trigonometry, and calculus) to physical problems;
- students will effectively use computers and calculators for scientific calculation, programming, and word processing.
Examples of Outcome Assessments
Assessment of the education outcomes for the physics major is primarily the responsibility of the departmental Physics Area Committee, comprised of faculty with expertise in physics and cognate disciplines. The Committee assesses the extent to which the program requirements create the desired outcomes by using a variety of techniques. Examples of these assessments include the following:
- All student majors must make oral presentations of their research results to the departmental faculty and submit written copies of their research papers to the departmental office as part of the required Capstone Seminar (PHYS 4501).
- Students must submit a departmental copy of their portfolios of undergraduate coursework, research projects, and professional activity at the end of their last semester of residence.
- At the time of major coursework completion, students must complete an exit questionnaire to determine the students’ perception of achievement of the major’s educational outcomes.
- Periodic surveys of alumni who have completed the physics program will be conducted to evaluate the relevancy of the major program to graduates’ present employment, their perception of success, and their personal satisfaction with the program. The surveys will also solicit suggestions for improvement of the physics major program.
Requirements for the Bachelor of Science Degree with a Major in Physics
Core Curriculum | 60 | |
Core Curriculum Areas A-E (See VSU Core Curriculum) | 42 | |
Physics majors are required to take MATH 1113 in Area A and MATH 2261 in Area D2. They are advised to take PHYS 2211K, PHYS 2212K in Area D2. | ||
Core Curriculum Area F | ||
Analytic Geometry and Calculus I (1 hour left over from Area D) | ||
Analytic Geometry and Calculus II and Analytic Geometry and Calculus III | ||
Modern Physics | ||
Principles of Physics I and Principles of Physics II (if not taken in Area D2) | ||
Lab Sciences, if PHYS 2211K, PHYS 2212K are taken in Area D2 | ||
Senior College Curriculum | 60 | |
Upper-Level Courses in Physics | ||
PHYS 3040 & PHYS 4040 | Electronics and Experimental Physics | 8 |
PHYS 3100 & PHYS 3810 & PHYS 3820 | Optics and Mathematical Methods of Physics and Computational Physics | 10 |
PHYS 4111 & PHYS 4112 | Theoretical Mechanics I and Theoretical Mechanics II | 6 |
PHYS 4211 & PHYS 4212 | Electromagnetism I and Electromagnetism II | 6 |
PHYS 4310 | Thermodynamics | 3 |
Other Supporting Courses | 12-15 | |
Introduction to Linear Algebra and Ordinary Differential Equations | ||
Language Requirement (3 hours may be taken in Area C) | ||
Guided Electives 1 | ||
Total hours required for the degree | 120 |
1 | chosen from: MATH 3040, MATH 3600, MATH 4081, MATH 4082, MATH 4110, MATH 4150, MATH 4260, MATH 4300, MATH 4540, MATH 4621, MATH 4622, MATH 4651, MATH 4652, ASTR 3400, ASTR 3800, ASTR 4101, ASTR 4400, ASTR 4410, PHYS 3821, PHYS 4300, PHYS 4800, PHYS 4900, PHYS 4950 |