Bachelor of Architecture/Bachelor of Science in Architectural Engineering Dual Degree Program
As a six-year dual professional degree program, the Bachelor of Architecture/Bachelor of Science in Architectural Engineering is founded upon the mutual interests of both architecture and architectural engineering.
For admission to the dual degree program, a student must meet the Admission Requirements of the School of Architecture and the requirements given in Admission and Registration for the Cockrell School of Engineering. Students are advised to contact both the School of Architecture and the Cockrell School of Engineering for specific information about the dual degree program.
Students in the dual degree program complete the requirements of the Bachelor of Architecture and the Bachelor of Science in Architectural Engineering degrees. See the descriptions for the the five-year Bachelor of Architecture degree program and the Bachelor of Science in Architectural Engineering for more information.
The following outline of courses is the suggested method for completing the requirements for both degrees simultaneously. Dual degree students must also consult the additional requirements of the Bachelor of Science in Architectural Engineering degree. Dual degree students are responsible for fulfilling the requirements of both degrees.
A student who follows the suggested arrangement of courses completes all requirements for both degrees at the end of the spring semester of the sixth year.
Curriculum
A total of at least 197 hours of coursework is required for this dual degree program.
All students must complete the University's Core Curriculum as well as the courses listed in the following table. In some cases, a course that is required for the dual degree program may also be counted toward the core curriculum; these courses are identified below.
Requirements | Hours | |
---|---|---|
Architecture | ||
Design | ||
ARC 310K | Design I | 3 |
ARC 310L | Design II | 3 |
ARC 320K | Design III | 3 |
ARC 520L | Design IV | 5 |
ARC 520M | Design V | 5 |
ARC 530T | Design VI | 5 |
ARC 560T | Advanced Design | 5 |
ARC 561R | Advanced Design (taken twice) | 10 |
Visual communication | ||
ARC 311K | Visual Communication I | 3 |
ARC 311L | Visual Communication II | 3 |
ARC 221K | Visual Communication III | 2 |
ARC 361T | Technical Communication | 3 |
Professional practice | ||
ARC 362 | Professional Practice | 3 |
Site design | ||
ARC 333 | Site Design | 3 |
Construction | ||
ARC 335M | Construction V | 3 |
History | ||
ARC 308 | Architecture and Society (visual and performing arts) | 3 |
ARC 318K | World Architecture: Origins to 1750 | 3 |
ARC 318L | World Architecture: The Industrial Revolution to the Present | 3 |
ARC 368R | Topics in the History of Architecture (taken three times) | 9 |
Community and Regional Planning | ||
CRP 369K | Principles of Physical Planning | 3 |
Engineering Requirements | ||
ARE 102 | Introduction to Architectural Engineering | 1 |
ARE 217 | Computer-Aided Design and Graphics | 2 |
ARE 323K | Project Management and Economics | 3 |
ARE 335 | Materials and Methods of Building Construction | 3 |
ARE 346N | Building Environmental Systems | 3 |
ARE 346P | HVAC Design | 3 |
or ARE 371 | Energy Simulation in Building Design | |
ARE 465 | Integrated Design Project | 4 |
ARE 366 | Contracts, Liability, and Ethics | 3 |
CH 301 | Principles of Chemistry I (part II science and technology) | 3 |
C E 311K | Introduction to Computer Methods | 3 |
C E 311S | Probability and Statistics for Civil Engineers | 3 |
C E 324P | Properties and Behavior of Engineering Materials | 3 |
C E 319F | Elementary Mechanics of Fluids | 3 |
C E 329 | Structural Analysis | 3 |
C E 331 | Reinforced Concrete Design | 3 |
or C E 335 | Elements of Steel Design | |
C E 333T | Engineering Communication | 3 |
C E 357 | Geotechnical Engineering | 3 |
E M 306 | Statics | 3 |
E M 319 | Mechanics of Solids | 3 |
GEO 303 | Introduction to Geology | 3 |
M 408C | Differential and Integral Calculus (mathematics) | 4 |
M 408D | Sequences, Series, and Multivariable Calculus | 4 |
M E 320 | Applied Thermodynamics | 3 |
M 427J | Differential Equations with Linear Algebra | 4 |
or M 427K | Advanced Calculus for Applications I | |
PHY 303K | Engineering Physics I (physics sequence meets part I science and technology) | 3 |
PHY 103M | Laboratory for Physics 303K | 1 |
PHY 303L | Engineering Physics II | 3 |
PHY 103N | Laboratory for Physics 303L | 1 |
Approved mathematics or science elective | 3 | |
Approved technical electives | 9 | |
Additional coursework to satisfy the core curriculum | 24 | |
Total Hours | 197 |