Bachelor of Science, Major in Physics/Engineering Dual Degree*
| Code | Title | Hours |
|---|---|---|
| Bachelor of Science, Major in Physics/Engineering Dual Degree | ||
| Core Curriculum | ||
| Component Area I (Communication) | 6 | |
| Component Area II (Mathematics) 1 | 3 | |
| Component Area III (Life and Physical Science) 2 | 8 | |
| Component Area IV (Language, Philosophy, and Culture) | 3 | |
| Component Area V (Creative Arts) | 3 | |
| Component Area VI (U.S. History) | 6 | |
| Component Area VII (Political Science/Government) | 6 | |
| Component Area VIII (Social and Behavioral Sciences) | 3 | |
| Component Area IX (Component Area Option) 1 | 4 | |
| Degree Specific Requirements | ||
| CHEM 1411 | General Chemistry I 2 | 4 |
| CHEM 1412 | General Chemistry II 2 | 4 |
| COSC 1436 | Programming Fundamentals I | 4 |
| ENGL 3330 | Intro to Technical Writing | 3 |
| ETDD 1361 | Engineering Graphics | 3 |
| Advanced Elective | 3 | |
| Major: Foundation | ||
| PHYS 1401 | Physics Boot Camp | 4 |
| PHYS 1411 | Introduction To Physics I | 4 |
| PHYS 1422 | Introduction To Physics II | 4 |
| PHYS 3370 & PHYS 4110 | Intro To Theoretical Physics and Adv Undergrad Laboratory I | 4 |
| PHYS 3391 & PHYS 3111 | Modern Physics I and Modern Physics Laboratory I | 4 |
| PHYS 3395 & PHYS 3115 | Electronics & Circuit Analysis and Electronic & Circuit Anlys Lab | 4 |
| Major: Prescribed Electives | ||
| PHYS Advanced Electives (see list below) | 6-8 | |
| MATH 1420 | Calculus I 1 | 4 |
| MATH 1430 | Calculus II | 4 |
| MATH 2440 | Calculus III | 4 |
| MATH 3376 | Differential Equations | 3 |
| MATH 3377 | Intro to Linear Alg & Matrics | 3 |
| Minor: Not Required 3,4 | ||
| Total Hours | 99-101 | |
- 1
MATH 1420 satisfies the Core Curriculum requirement for Component Area II (Mathematics), one semester credit hour of Component Area IX (Component Area Option), and the Degree Specific requirement.
- 2
CHEM 1411 and CHEM 1412 satisfy the Core Curriculum requirement for Component Area III (Life and Physical Science).
- 3
A minor is not required for this degree program; however, a student has the option to add a minor, but to do so additional semester credits hours will be needed above the degree program’s stated total semester credit hours.
- 4
The following minor cannot be paired with this degree program: Minor in Physics.
Note: Fourth Year at university with recognized accredited degree program.
| Code | Title | Hours |
|---|---|---|
| Major: Prescribed Electives | ||
| PHYS Advanced Electives | ||
| PHYS 3360 | Statics And Dynamics | 3 |
| PHYS 4333 & PHYS 4113 | Light And Optics and Light And Optics | 4 |
| PHYS 4366 | Intro Quantum Mechanics | 3 |
| PHYS 4368 | Electricity And Magnetism | 3 |
| PHYS 4370 | Classical Mechanics | 3 |
| PHYS 4371 | Thermodynamcs & Statistcl Mech | 3 |
Notes
Students must earn a 2.0 minimum overall GPA in all coursework.
Students must meet a 2.0 minimum overall major GPA in all major coursework.
Students must earn a 2.0 minimum SHSU GPA in all coursework.
Students must meet a 2.0 minimum SHSU major GPA in all major coursework.
While SHSU does not offer degrees in Engineering, the Department of Physics and Astronomy does provide several options for Pre-Engineering. Physics and Engineering go together very well; because, so much of Engineering Design is built upon the underlying foundation of Physics.
Pre-Engineering includes more Math (especially Calculus) than Engineering Technology does, and it leads to very different careers. The Accreditation Board for Engineering and Technology (ABET) says that Engineering programs often focus on theory and conceptual design, while Technology programs usually focus on application and implementation. Engineers often do work involving original research and development, and many continue on to Masters or Doctoral programs in Engineering. Technologists are most likely to work in construction, manufacturing, product design, testing, or technical services and sales.
*In the Dual Degree, or "3+2" program, students earn degrees in both Physics and Engineering. This starts with three years at SHSU, completing the Core Curriculum, the Calculus and Physics introductory sequence, and a portion of the upper division Physics Curriculum. Students then apply to any accredited Engineering program at an institution of their choice for the last two years of degree work. One option is UT Tyler, where a transfer agreement guarantees admission for students with a 2.5 GPA. After completion of the Engineering Degree, credits are retroactively transferred back to SHSU so that the Physics Degree can be awarded simultaneously.
The "2+2" Pre-Engineering Tracks in Civil, Mechanical, and Electrical Engineering are four-year degrees where students transfer to an accredited Engineering Program (such as UT Tyler) after completing two years at SHSU.
The Department of Chemistry offers a similar "3+2" program combining Bachelor's of Science degrees in Chemistry (from SHSU) and Chemical Engineering (from an accredited program).
All students interested in Physics or Pre-Engineering enroll in the Physics Bootcamp (PHYS 1401) during their first semester on campus. This lets interested students see what physics is all about as early as possible, with no prerequisites. It ensures that they have math skills required in the next two years and helps them understand what those skills are good for in Physics and Engineering. It develops confidence, teamwork, camaraderie, and a sense of belonging in the department. A weekly group-based problem-solving practice session is integrated. The Bootcamp is typically offered each Fall and Spring term.
For more information on the Pre-Engineering programs at SHSU contact:
Department Chair
Physics and Astronomy
Sam Houston State University
Huntsville, Texas 77341-2267
(936) 294-1601
Students entering a Pre-Engineering program must consult with an academic advisor in the Department of Physics and Astronomy to ensure that their degree plan meets all admission requirements of programs into which they seek to transfer.
| First Year | |||
|---|---|---|---|
| Fall | Hours | Spring | Hours |
| CHEM 14111 | 4 | CHEM 14121 | 4 |
| ENGL 13012 | 3 | ENGL 13022 | 3 |
| HIST 13013 | 3 | HIST 13023 | 3 |
| MATH 14204 | 4 | MATH 1430 | 4 |
| PHYS 1401 | 4 | PHYS 1411 | 4 |
| 18 | 18 | ||
| Second Year | |||
| Fall | Hours | Spring | Hours |
| Component Area IV | 3 | Component Area IX | 3 |
| ETDD 1361 | 3 | COSC 1436 | 4 |
| MATH 2440 | 4 | ENGL 3330 | 3 |
| PHYS 1422 | 4 | PHYS 3370 & PHYS 4110 | 4 |
| POLS 23055 | 3 | POLS 23065 | 3 |
| 17 | 17 | ||
| Third Year | |||
| Fall | Hours | Spring | Hours |
| Component Area VIII | 3 | Component Area V | 3 |
| Advanced Elective | 3 | MATH 3377 | 3 |
| PHYS 3111 | 1 | PHYS 3115 | 1 |
| PHYS 3391 | 3 | PHYS 3395 | 3 |
| MATH 3376 | 3 | PHYS Advanced Electives6 | 3-4 |
| PHYS Advanced Electives6 | 3-4 | ||
| 16-17 | 13-14 | ||
| Fourth Year | |||
| Fall | Hours | Spring | Hours |
| University with Accredited Degree Program | 0 | University with Accredited Degree Program | 0 |
| 0 | 0 | ||
| Total Hours: 99-101 | |||
- 1
Satisfies Core Curriculum requirement for Component Area III (Life and Physical Science).
- 2
Satisfies Core Curriculum requirement for Component Area I (Communications).
- 3
Satisfies Core Curriculum requirement for Component Area VI (U.S. History).
- 4
MATH 1420 satisfies the Core Curriculum requirement for Component Area II (Mathematics), one semester credit hour of Component Area IX (Component Area Option), and the Degree Specific requirement.
- 5
Satisfies Core Curriculum requirement for Component Area VII (Political Science/Government).
Note: Fourth Year at university with recognized accredited degree program.
| Code | Title | Hours |
|---|---|---|
| Prescribed Electives 6 | ||
| Advanced PHYS Electives | ||
| PHYS 3360 | Statics And Dynamics | 3 |
| PHYS 4333 & PHYS 4113 | Light And Optics and Light And Optics | 4 |
| PHYS 4366 | Intro Quantum Mechanics | 3 |
| PHYS 4368 | Electricity And Magnetism | 3 |
| PHYS 4370 | Classical Mechanics | 3 |
| PHYS 4371 | Thermodynamcs & Statistcl Mech | 3 |
Notes
Students must earn a 2.0 minimum overall GPA in all coursework.
Students must meet a 2.0 minimum overall major GPA in all major coursework.
Students must earn a 2.0 minimum SHSU GPA in all coursework.
Students must meet a 2.0 minimum SHSU major GPA in all major coursework.
A minor is not required for this degree program; however, a student has the option to add a minor, but to do so additional semester credits hours will be needed above the degree program’s stated total semester credit hours.
The following minor cannot be paired with this degree program: Minor in Physics.
While SHSU does not offer degrees in Engineering, the Department of Physics and Astronomy does provide several options for Pre-Engineering. Physics and Engineering go together very well; because, so much of Engineering Design is built upon the underlying foundation of Physics.
Pre-Engineering includes more Math (especially Calculus) than Engineering Technology does, and it leads to very different careers. The Accreditation Board for Engineering and Technology (ABET) says that Engineering programs often focus on theory and conceptual design, while Technology programs usually focus on application and implementation. Engineers often do work involving original research and development, and many continue on to Masters or Doctoral programs in Engineering. Technologists are most likely to work in construction, manufacturing, product design, testing, or technical services and sales.
In the Dual Degree, or "3+2" program, students earn degrees in both Physics and Engineering. This starts with three years at SHSU, completing the Core Curriculum, the Calculus and Physics introductory sequence, and a portion of the upper division Physics Curriculum. Students then apply to any accredited Engineering program at an institution of their choice for the last two years of degree work. One option is UT Tyler, where a transfer agreement guarantees admission for students with a 2.5 GPA. After completion of the Engineering Degree, credits are retroactively transferred back to SHSU so that the Physics Degree can be awarded simultaneously.
The "2+2" Pre-Engineering Tracks in Civil, Mechanical, and Electrical Engineering are four-year degrees where students transfer to an accredited Engineering Program (such as UT Tyler) after completing two years at SHSU.
The Department of Chemistry offers a similar "3+2" program combining Bachelor's of Science degrees in Chemistry (from SHSU) and Chemical Engineering (from an accredited program).
All students interested in Physics or Pre-Engineering enroll in the Physics Bootcamp (PHYS 1401) during their first semester on campus. This lets interested students see what physics is all about as early as possible, with no prerequisites. It ensures that they have math skills required in the next two years and helps them understand what those skills are good for in Physics and Engineering. It develops confidence, teamwork, camaraderie, and a sense of belonging in the department. A weekly group-based problem-solving practice session is integrated. The Bootcamp is typically offered each Fall and Spring term.
For more information on the Pre-Engineering programs at SHSU contact:
Department Chair
Physics and Astronomy
Sam Houston State University
Huntsville, Texas 77341-2267
(936) 294-1601
Students entering a Pre-Engineering program must consult with an academic advisor in the Department of Physics and Astronomy to ensure that their degree plan meets all admission requirements of programs into which they seek to transfer.
The Texas Higher Education Coordinating Board (THECB) marketable skills initiative is part of the state’s 60x30TX plan and was designed to help students articulate their skills to employers. Marketable skills are those skills valued by employers and/or graduate programs that can be applied in a variety of work or education settings and may include interpersonal, cognitive, and applied skill areas.
The BS in Physics/Engineering Dual Degree is designed to provide graduates with the following marketable skills:
- Ability to creatively solve real-world problems.
- Sophisticated understanding of applied mathematics.
- Capacity to analyze and interpret complex data.
- Quantitative understanding of mechanical, electrical, and thermal systems.
- Model complex interactions with computer programming and technology.
