This program prepares students for graduate school, a career in research or teaching, or employment in industry, business, or education fields where analytical skills and a scientific background are advantageous. Students who are considering a double major should talk to the undergraduate coordinator.
Admissions
University-wide admissions policies can be found in Undergraduate Admissions Policies.
To apply for this program, please complete the George Mason University Admissions Application.
Policies
Students must fulfill all Requirements for Bachelor's Degrees including the Mason Core.
At least 18 credits used to fulfill an Astronomy, BS cannot be used to fulfill another major or minor. Some course substitutions are allowed for double majors, subject to approval from the Department of Physics and Astronomy.
By taking ASTR 402 RS: Methods of Observational Astronomy (Mason Core), astronomy majors satisfy the university's writing-intensive requirement.
For policies governing all undergraduate programs, see AP.5 Undergraduate Policies.
Degree Requirements
Total credits: minimum 120
Students should refer to the Admissions & Policies tab for specific policies related to this program.
Students must complete a total of 58 credits in physics and astronomy and 14 credits in mathematics with a minimum GPA of 2.00.
Required Astronomy Courses
| Code | Title | Credits |
|---|---|---|
| ASTR 124 | Introduction to Observational Astronomy | 1 |
| ASTR 210 | Introduction to Astrophysics | 3 |
| ASTR 328 | Stars | 3 |
| ASTR 401 | Computer Simulation in Astronomy | 3 |
| ASTR 402 | RS: Methods of Observational Astronomy (Mason Core) 1 | 4 |
| Total Credits | 14 | |
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Fulfills the writing intensive requirement.
Required Physics Courses
| Code | Title | Credits |
|---|---|---|
| Choose one of the following two sequences: | 8 | |
| Sequence One | ||
| University Physics I (Mason Core) and University Physics I Laboratory (Mason Core) (the lab can be taken with, or any time after, PHYS 160) | ||
| University Physics II (Mason Core) and University Physics II Laboratory (Mason Core) (the lab can be taken with, or any time after, PHYS 260) | ||
| Sequence Two | ||
| Introductory and Modern Physics I (Mason Core) and University Physics I Laboratory (Mason Core) (the lab can be taken with, or any time after, PHYS 170) | ||
| Introductory and Modern Physics II (Mason Core) and University Physics II Laboratory (Mason Core) (the lab can be taken with, or any time after, PHYS 270) | ||
| PHYS 251 | Introduction to Computer Methods in Physics (Mason Core) | 3 |
| PHYS 262 | University Physics III (Mason Core) | 3 |
| PHYS 301 | Analytical Methods of Physics | 3 |
| PHYS 303 | Classical Mechanics | 3 |
| PHYS 305 | Electromagnetic Theory | 3 |
| Total Credits | 23 | |
Required Math Courses
| Code | Title | Credits |
|---|---|---|
| MATH 113 | Analytic Geometry and Calculus I (Mason Core) | 4 |
| MATH 114 | Analytic Geometry and Calculus II | 4 |
| MATH 213 | Analytic Geometry and Calculus III | 3 |
| MATH 214 | Elementary Differential Equations | 3 |
| Total Credits | 14 | |
Additional Coursework
| Code | Title | Credits |
|---|---|---|
| Select 21 credits from the following: | 21 | |
| Astrobiology | ||
| Planetary Science | ||
| Galaxies and Cosmology | ||
| Senior Research | ||
or ASTR 409 | Astronomy Internship | |
| Exoplanets | ||
| The Interstellar Medium | ||
| Wave Motion and Electromagnetic Radiation | ||
| Thermal Physics | ||
| Modern Physics | ||
| Instrumentation | ||
| Waves and Optics | ||
| Intermediate Computer Methods in Physics | ||
| Introduction to Quantum Mechanics and Atomic Physics | ||
| Quantum Mechanics II | ||
| Relativity | ||
| Nuclear and Particle Physics | ||
| Planetary Atmospheres and Ionospheres | ||
| Atmospheric Physics | ||
| Total Credits | 21 | |
Mason Core and Elective Credits
In order to meet a minimum of 120 credits, this degree requires an additional 48 credits, which may be applied toward any remaining Mason Core requirements (outlined below), Requirements for Bachelor's Degrees, and electives. Students are strongly encouraged to consult with their advisors to ensure that they fulfill all requirements.
Mason Core
Some Mason Core requirements may already be fulfilled by the major requirements listed above. Students are strongly encouraged to consult their advisors to ensure they fulfill all remaining Mason Core requirements.
All Integration-level requirements must be completed at George Mason and cannot be satisfied through transfer credit. These courses are integral to the university's educational philosophy and ensure that all graduates demonstrate proficiency in writing, critical thinking, and integrative learning consistent with the university's standards. Rare exceptions to this policy may only be granted by the Provost's Office.
Students who have completed the following credentials are eligible for a waiver of the Foundation and Exploration (lower level) requirement categories with the exception of Written Communication, which must be met by transferring in or taking an approved coruse at George Mason University. The Integration category (upper level) is not waived under this policy. See Admissions for more information.
- VCCS Uniform Certificate of General Studies
- VCCS or Richard Bland Associate of Science (A.S.), Associate of Arts (A.A.), Associate of Arts and Sciences (A.A.&S.), or Associate of Fine Arts (A.F.A.)
| Code | Title | Credits |
|---|---|---|
| Foundation Requirements | ||
| Written Communication (lower-level) | 3 | |
| Oral Communication | 3 | |
| Quantitative Reasoning | 3 | |
| Information Technology and Computing | 3 | |
| Exploration Requirements | ||
| Arts | 3 | |
| Global Contexts | 3 | |
| Global History | 3 | |
| Literature | 3 | |
| Natural Science | 7 | |
| Social and Behavioral Sciences | 3 | |
| Just Societies (optional) 1 | ||
| Integration Requirements | ||
| Written Communication (upper-level) | 3 | |
| Writing Intensive 2 | 3 | |
| Mason Apex 3 | 3 | |
| Total Credits | 40 | |
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In addition to covering content related to the designated category, Exploration level courses marked with a Just Societies "flag" are specifically designed to help students learn how to interact effectively with others from all walks of life, including those with backgrounds and beliefs that differ from their own. Students who wish to increase their knowledge and skills in this area may choose to enroll in a Just Societies-flagged course. Students interested in this approach to completing their Mason Core Exploration Requirements should work closely with their advisor to identify the appropriate Just Societies-flagged courses.
- 2
Most programs include the writing-intensive course designated for the major as part of the major requirements; this course is therefore not counted towards the total required for Mason Core.
- 3
Minimum 3 credits required.
Honors in the Major
Eligibility
Astronomy majors who have completed the prerequisites for ASTR 405 Honors Thesis in Astronomy I, have a GPA of at least 3.50 in ASTR and PHYS courses taken at Mason, and have a GPA of at least 3.50 in all courses taken at Mason may apply for admission to the astronomy honors program. Not all applicants who meet the minimum requirements are guaranteed acceptance. Please visit the department for details.
Honors Requirements
To graduate with honors in astronomy, a student must maintain a GPA of at least 3.50 in their ASTR/PHYS courses. Students accepted into the honors program must complete ASTR 405 Honors Thesis in Astronomy I and ASTR 406 Honors Thesis in Astronomy II with a GPA of at least 3.50 and a grade of ‘A-’ or better in ASTR 406 Honors Thesis in Astronomy II. Students in ASTR 405 Honors Thesis in Astronomy I/ASTR 406 Honors Thesis in Astronomy II will complete a research project and write a thesis working under the supervision of a faculty member. At the end of ASTR 406 Honors Thesis in Astronomy II, the student will write a substantial thesis paper and make a presentation of results to their honors committee.
Bachelor's Degree (selected)/Quantum Science and Engineering, Accelerated MS
Overview
Highly-qualified undergraduates may be admitted to the combined bachelor's and accelerated master's degree pathway program (BAM Pathway) and obtain a Bachelor of Science degree in any College of Science major and a Master of Science in Quantum Science and Engineering in an accelerated time-frame after satisfactory completion of a minimum of 138 credits.
This accelerated option is offered jointly by undergraduate Bachelor of Science programs in the College of Science and the Quantum Science and Engineering, MS program, which is jointly offered by the College of Science and the College of Engineering and Computing.
Students in an accelerated master’s degree program must fulfill all university
requirements for the master's degree. See AP.6.7 Bachelor's/Accelerated Master's Degree for policies related to this program. For policies governing all graduate degrees, see AP.6 Graduate Policies.
BAM Pathway Admission Requirements
Applicants to all graduate programs at George Mason University must meet the admission standards and application requirements for graduate study as specified in Graduate Admissions Policies and accelerated master's degree policies.
Students must major in a College of Science Bachelor of Science program and will be considered for admission into the BAM Pathway after completion of a minimum of 60 credits.
Students who are accepted into the BAM Pathway will be allowed to register for graduate level courses after successful completion of a minimum of 75 undergraduate credits.
Accelerated Master's Admission Requirements
Undergraduate students already admitted to the BAM Pathway will be admitted to the intended master’s program if they have met the following criteria that will be verified:
- Submission of BAM Transition Form by stated deadline.
- Sufficient minimum 3.0 cumulative GPA for conferred undergraduate degree (which does not include any earned reserve graduate credits).
- Completion of approved advanced standing courses and any reserve graduate courses; please refer to policy A.P. 6.7.
- Successful completion of required minimum of 120 credits needed for undergraduate degree conferral (after exclusion any satisfactory reserve graduate credits earned).
- Successfully meeting George Mason’s requirements for undergraduate degree conferral (graduation) and timely submitting the application for graduation.
Accelerated Pathway Requirements
To maintain the integrity and quality of both the undergraduate and graduate degree programs, undergraduate students interested in taking graduate courses must choose from the following:
Advanced Standing Courses
Students must complete at least 3 credits from the following list of graduate-level courses while in undergraduate status, up to a maximum of 12.
Students are encouraged to consult with both their undergraduate advisor and the Quantum Science and Engineering, MS advisor:
| Code | Title | Credits |
|---|---|---|
| Select from the following options: | 3-12 | |
| Up to one 500-600 level specialized course from the following: | ||
| Computer Simulation in Astronomy | ||
| Numerical Methods for Bioinformatics | ||
| Analysis of Algorithms | ||
| Advanced Algorithms | ||
| Foundations of Parallel Computation | ||
| Numerical Methods | ||
| Computer Architecture | ||
| Applied Cryptography | ||
| Error Control Coding | ||
| Post-Quantum Cryptography | ||
| Remote Sensing | ||
| Numerical Linear Algebra | ||
| Numerical Analysis | ||
| Numerical Solutions of Differential Equations | ||
| Operations Research: Deterministic Optimization | ||
| Operations Research: Stochastic Models | ||
| Stochastic Optimization | ||
| Computational Physics I | ||
| Computational Physics II | ||
| Remaining credits are selected from the following: | ||
| Ideas in Quantum Science and Technology | ||
| Mathematical Foundations of QSE 1 | ||
| Programming Foundations of QSE 1 | ||
| Classical and Quantum Information Theory | ||
| Quantum Algorithms | ||
| Applications of Quantum Technology | ||
| Quantum Computing System Design | ||
or ECE 570 | Quantum Computing System Design | |
Reserve Credit Courses
Students may complete up to 6 credits while in undergraduate student status, of graduate-level coursework from the list below that will only count toward the graduate degree program.
| Code | Title | Credits |
|---|---|---|
| Select up to 6 credits of not previously completed courses from the following: | 6 | |
| Ideas in Quantum Science and Technology | ||
| Mathematical Foundations of QSE 1 | ||
| Programming Foundations of QSE 1 | ||
| Classical and Quantum Information Theory | ||
| Quantum Algorithms | ||
| Applications of Quantum Technology | ||
| Quantum Computing System Design | ||
or ECE 570 | Quantum Computing System Design | |
- 1
As only one of these courses count for Quantum Science and Engineering, MS, credit, and these courses may not be necessary for all students, consult with an academic advisor prior to enrolling in QSE 501 Mathematical Foundations of QSE or QSE 502 Programming Foundations of QSE.
For more detailed information on coursework and timeline requirements, see AP.6.7 Bachelor's/Accelerated Master's Degree and AP.1.4.4 Graduate Course Enrollment by Undergraduates.