The Department of Mathematics, Physics, and Engineering offers programs of study leading to the Bachelor of Science degree in Mathematics, Physics, Engineering Physics, Hydrology, Environmental Engineering, and Computer Science. The Bachelor of Science in Mathematics provides a program of study that prepares students who are: 1) seeking to teach mathematics at the secondary level or 2) seeking employment in industry. On the graduate level, the Master of Science in Mathematics provides a program of study that prepares students additionally (beyond the undergraduate level) for employment in industry. Students completing the M.S. in Mathematics also receive preparatory work for pursuing a doctoral degree in mathematics or mathematics education. For further information about the graduate program, see the graduate section of the catalog. For more information about the Mathematics, Physics, Engineering, Hydrology, or Computer Science programs, visit the departmental web site at http://www.math.tarleton.edu.
THE BACHELOR OF SCIENCE DEGREE IN MATHEMATICS
Semester Hours 47
University Core Curriculum-
See p. 42 for additional information about the Tarleton State University core curriculum requirements. See your academic advisor for assistance in selecting specific courses to satisfy these core curriculum requirements.
| Courses Required for BS in Mathematics | |
| MATH 120, 1312, 209, 307, 310, 311, 332, 409 | 26 |
| PHYS 122 | 4 |
| Approved C S electives, 3 hours advanced | 6 |
| Additional Required Courses | |
| For BS in Mathematics with Secondary Certification | |
| MATH 301, 302, 404 | 9 |
| 6 hours from MATH 306, 333, 360, 420, 490 | 6 |
| EDU 330, 335, 430, 435, 490, PSY 220 or 303, RDG 351 | 24 |
| ENGL 309 | 3 |
| Approved science elective | 3 |
| Electives | 7 |
| For BS in Mathematics without certification | |
| MATH 306, 333 | 7 |
| 9 hours from MATH 301, 360, 420, 490 | 9 |
| Electives, 6 hours advanced | 12 |
| Supporting field, 9 hours advanced | 21 |
| Approved science elective | 3 |
| For BS in Mathematics with 8-12 Mathematics/Physics Certification | |
| MATH 301, 302, 333 | 10 |
| MATH 404 or PHYS 404 | 3 |
| PHYS 242, 334, 435 | 10 |
| From Math 306 or advanced PHYS electives | 6 |
| EDU 330, 335, 430, 435, 490, PSY 220 or 303, RDG 351 | 24 |
| ENGL 309 | 3 |
| Courses for supporting field are to be chosen from an academic area in which mathematics is applicable. Supporting field must be developed in consultation with the department heads involved. | |
ENGINEERING PHYSICS
The Engineering Physics program at Tarleton State University is an engineering degree program with emphases in selected areas of Electrical Engineering, Computer Engineering, and Materials Physics. Students are prepared for employment as an engineer, for engineering licensure, as well as for graduate studies in selected areas of Electrical Engineering, Computer Engineering or Physics. Extensive study in mathematics, engineering, and physics gives the Engineering Physics graduate the ability to design components, processes, and systems to meet specifications and the ability to work and communicate effectively in team-oriented, project-management-driven environments. Computer simulation and modern analytical tools are used to solve physical and electrical problems. Software development, hardware integration, and testing of microcomputers, microcontrollers, and design of microelectronic circuitry provide the graduate with the tools to apply computer and software-based solutions. Additional studies in ethics assure that the graduate understands engineers’ special responsibilities to protect the health and well being of the general public. See more details at: http://www.tarleton.edu/~Engineering.
The first two years of the Engineering Physics program consist of the courses in the Engineering program. When the student successfully completes each designated course in the Engineering program with a grade of “C” or better, he or she may apply for admission into the Engineering Physics program.
THE BACHELOR OF SCIENCE DEGREE IN ENGINEERING PHYSICS
Semester Hours 47
University Core Curriculum- See p. 42 for additional information about the Tarleton State University core curriculum requirements. See p. 371 for course descriptions in PHYS, p. 314 for ENGR, and p. 315 for ENPH.
| Courses Required for BS in Engineering Physics (A grade of “C” or better in each required for graduation) |
|
| PHYS 1221, 2421, 334, 435 | 14 |
| ENGR 111, 112, 221, 222, 223, 460 | 18 |
| ENPH 225, 248, 314, 332, 343, 345, 430, 436, 441, 443 | 36 |
| Advanced PHYS, ENGR, ENPH, or CS elective | 9 |
| MATH 1201, 209, 306, 333 | 15 |
| CHEM 108 *Applies to University Core Curriculum |
4 |
ENVIRONMENTAL ENGINEERING
The Environmental Engineering program at Tarleton State University is unique in the State of Texas in preparing students to work as environmental engineers at the baccalaureate level. Students are prepared for employment as an engineer, for engineering licensure, as well as for graduate studies. Extensive study in math, engineering, physics, chemistry, biology, and environmental engineering gives the graduate the ability to design components, processes, and systems to meet specifications and the ability to work and communicate effectively in team-oriented, project-management-driven environments. Computer simulation and modern analytical tools are used to solve environmental engineering problems within the fields of water supply and resources, environmental systems modeling, environmental chemistry, wastewater management, solid waste management, hazardous waste management, atmospheric systems and air pollution control, and environmental and occupational health. Students will take a survey course covering all aspects of environmental engineering followed by more comprehensive studies in water resources, water and wastewater management, systems modeling and either air pollution monitoring and control or solid and hazardous waste management. Additional studies in ethics assure that the graduate understands engineers’ special responsibilities to protect the health and well being of the general public. See more details at: http://www.tarleton.edu/~Engineeering.
The first two years in Environmental Engineering consist of the courses in the engineering program identified under that heading. When the student successfully completes each designated course in the Engineering program with a grade of “C” or better, he or she may apply for admission into the Environmental Engineering.
THE BACHELOR OF SCIENCE DEGREE IN ENVIRONMENTAL ENGINEERING
Semester Hours 47
University Core Curriculum-
See p. 42 for additional information about the Tarleton State University core curriculum requirements. See p. 381 for course descriptions in PHYS, p. 322 for ENGR, and p. 323 for ENPH.
| Courses Required for BS in Environmental Engineering A grade of “C” or better is required in each for graduation. |
|
| PHYS 122*, 242* | 8 |
| ENGR 111, 112, 221, 222, 223, 303 | 18 |
| ENPH 225 | 4 |
| ENVE 210, 211, 300, 301, 320, 310, 402, 410, 420, 421, 430 | 41 |
| MATH 120*, 209, 306, 333 | 15 |
| CHEM 108, 211 * applies to University Core Curriculum |
8 |
PHYSICS
Physics is the science that investigates and tries to understand the basic laws of nature. In this pursuit, it deals with the entire range of natural phenomena from the smallest domain of sub-nuclear particles to the largest domain of distant objects in the universe. This breadth of interests is reflected in the type of work pursued by physicists. Some are interested in research on problems that are at the frontiers of knowledge. Some apply this newly acquired knowledge to make practical advances in fields like engineering. Still others use a knowledge of physics as a basis for careers in medicine, law, teaching or administration. A secondary certification in either Physical Science or Math/Physics is also available as part of a BS in Physics for students interested in teaching.
THE BACHELOR OF SCIENCE DEGREE IN PHYSICS
Semester Hours 47
University Core Curriculum-
See p. 42 for additional information about the Tarleton State University core curriculum requirements. See your academic advisor for assistance in selecting specific courses to satisfy these core curriculum requirements. See p. 381 for course descriptions in PHYS.
| Courses Required for BS in Physics | |
| PHYS 122,1 2421, 331, 332, 333, 334, 430, 435 | 26 |
| MATH 1201, 209, 306, 333 | 15 |
| PHYS electives, 6 hours advanced | 9 |
| Additional Required Courses For BS in Physics (without certification) | |
| Supporting field, 9 hours advanced | 26 |
| Electives, 6 hours advanced | 10 |
| Approved C S elective | 3 |
| Math 332 | 3 |
| For BS in Physics with Teacher Certification, Physical Science (8-12) | |
| EDU 330, 335, 430, 435, 490, PSY 220 or 303, RDG 351 | 24 |
| PHYS 404 | 3 |
| ENGL 309 | 3 |
| CHEM 105, 108, 201, 486 | 13 |
| For BS in Physics with Teacher Certification, 8-12 Mathematics/Physics | |
| MATH 302, 311 | 6 |
| PHYS 404 or MATH 404 | 3 |
| Elective | 3 |
| EDU 330, 335, 430, 435, 490, PSY 220 or 303, RDG 351 | 24 |
| Approved C S elective | 3 |
| ENGL 309 | 3 |
| 1 May be used to satisfy university core curriculum requirements. | |
COMPUTER SCIENCE
The Bachelor of Science Degree in Computer Science prepares graduates to enter the high-tech work force or to continue their studies in computer science or related disciplines at the graduate level. This program provides a strong foundation in computer science, mathematics, and general science as recommended in the criteria for accrediting computing programs put forth by the Accreditation Board for Engineering and Technology (ABET) and in the computing curricula proposed by the Institute of Electrical and Electronic Engineers (IEEE). Students are encouraged to also specialize in a complementary area, through the support field of study.
THE BACHELOR OF SCIENCE DEGREE IN COMPUTER SCIENCE
Semester Hours 47
University Core Curriculum-
See p. 42 for additional information about the Tarleton State University core curriculum requirements. See your academic advisor for assistance in selecting specific courses to satisfy these core curriculum requirements. See p.301 for C S course descriptions.
| Courses Required for BS in Computer Science | |
| MATH 131,1 120, 209, 310 | 14 |
| PHYS 122,1 2421 | 8 |
| Science/engineering electives from MATH 118, 306, 332, 360, ENPH 441, 443, advanced CS or science elective | 12-14 |
| Supporting field | 12 |
| Advanced supporting field | 9 |
| C S 110, 221, 230, 241, 248, 343, 380, 389, 401, 451, 478 | 36 |
| Advanced C S electives | 6 |
| 1 May satisfy university core curriculum requirements. | |
HYDROLOGY AND WATER RESOURCES
One of the unique features of the Hydrology and Water Resources Program at Tarleton State University is that each student is required to complete an internship before graduation. The manner in which this requirement is met is for the student to work from 9 to 13 weeks (generally 40 hours a week) for a company or agency that has some expertise in hydrology. Often this leads to full‑time employment at the end of the internship. See "440-3 Internship" in the course offerings on page 355 and note the prerequisite that the "student must have completed all other courses listed on an official degree plan and have a grade of C or higher in all required courses in the following disciplines: hydrology, biology, geology, chemistry, math and physics." Personnel in the Hydrology and Water Resources/Engineering Division will assist in finding an appropriate internship sponsor.
THE BACHELOR OF SCIENCE DEGREE IN HYDROLOGY
Semester Hours 47
University Core Curriculum-
See p. 42 for additional information about the Tarleton State University core curriculum requirements.
| Courses Required for BS in Hydrology | |
| HYDR 110, 211, 300, 310, 320, 410, 420, 430, 440, 4502 | 34 |
| PHYS 122,1 242, CHEM 2013, GEOL 105 | 16 |
| MATH 209, 300, 333 | 11 |
| C S 344 | 3 |
| Advised elective4 | 3 |
| 1 This course satisfies a core curriculum requirement. 2 See p. 353 for HYDR course descriptions. 3 Prerequisite CHEM 105 and 108 are taken to meet Core requirements for Laboratory Science. 4 Chemistry track students may take BIOL 120 as the advised elective. |
|
| Courses required for Support Areas For Classical | |
| BIOL 120, 121, 312, 441 | 16 |
| ENGL 309 | 3 |
| For Agriculture | |
| A EN 318, AGRN 301, 420 | 10 |
| R&RM 301, 320,AGRN 105, 427; or ECO 201, 202, A EC 301, 425 |
12 |
| For Biology | |
| BIOL 120, 121, 312, 441 | 16 |
| 2 electives from BIOL 340, 4014, 442, CHEM 202 | 6-8 |
| For Chemistry | |
| BIOL 121, 441, CHEM 202, 323 | 16 |
| 2 electives from CHEM 324, 427 or 428, 307 or 408 | 7-8 |
| For Engineering | |
| MATH 306 | 3 |
| ENGR 111, 112, 221, 222, 223, 486 and ENPH 225 | 22 |
| For Geosciences | |
| GEOL 106, 203, 310, 313, 314, 412 | 21 |
| For Computer Science | |
| MATH 306, 360, 420 | 9 |
| C S 110, 115, 241, 361, 401 | 15 |
A student who wishes to be eligible to take the Engineering Fundamentals Examination as a graduate of an engineering-related science program should take the following courses:
| ENGR 221 Principles of Engineering I | ENGR 303 Engineering Economy |
| ENGR 222 Principles of Engineering II | ENPH 225 Electrical Circuit Theory |
| ENGR 223 Principles of Engineering III | ENPH 248 Introduction to Digital |
| MATH 306 Differential Equations | Systems Design |
A typical curriculum incorporating these courses may be obtained from the Division of Hydrology and Water Resources/Engineering. Completing these courses allows the student to minor in engineering.
ENGINEERING PROGRAM
The Engineering program at Tarleton State University prepares the student for further studies in specific engineering disciplines either at Tarleton State University or other colleges and universities. The Engineering Program comprises approximately one half of the course work required for a Bachelor of Science degree in Engineering and is the entry point for all students wishing to major in engineering. Entry into the Engineering Program requires registration in Trigonometry, Pre-calculus or higher. Once the designated Engineering courses in the table below have been completed with a “C” or better, the student may apply for admission into the upper level programs leading to a degree in an engineering discipline at Tarleton.
The student may instead choose to transfer to another engineering degree-granting college or university to complete the requirements for an engineering degree. For example, the Engineering Program is aligned with the current program at Texas A&M University for seamless transfer. Students wishing to transfer are encouraged to keep their advisor informed of their intentions, as requirements for different schools of engineering vary considerably.
Entering freshman Engineering students are evaluated for mathematics preparedness. The normal course progression calls for taking Mathematics 120 (Calculus I) as the first mathematics course. If the student is not prepared to take Calculus I as the first course, then he or she may be required to take MATH 107 (College Algebra), MATH 109 (Plane Trigonometry) or MATH 116 (Pre-Calculus) instead. It is strongly recommended that students who are not certain that they are well grounded in algebra and trigonometry come to Tarleton and take the placement tests early enough in the summer prior to first enrollment so they can take any necessary calculus preparatory courses in summer school if they wish.
SUGGESTED CURRICULUM FOR ENGINEERING1
Courses from University Core Curriculum |
Semester Hours |
ENGL 111, 112 |
6 |
CHEM 108 |
4 |
|
|
HIST 201, 202 |
6 |
POLS 201, 202 |
6 |
HLTH 101 |
3 |
|
|
Other Required Courses |
|
MATH 2091, 306, 333 |
11 |
ENGR 1111, 1121, 2211, 2221, 223, ENPH 225 |
19 |
PHYS 1221, 2421 |
8 |
1 These courses must be completed with a grade of “C” or better before the student can make application to the upper level engineering programs at Tarleton State University
Please Note:
1) TAMU, UTA, Texas Tech and many other universities require all students who have not taken two years of the same foreign language in high school to take a minimum of six semester hours of the same foreign language in college.
2) The Agricultural Engineering courses listed elsewhere in this catalog are not intended for engineers and do not count toward accredited engineering degrees.