BSECE: Electrical and Computer Engineering
The Bachelor of Science in Electrical and Computer Engineering (B.S.E.C.E.) program is accredited by the Engineering Accreditation Commission (EAC) of ABET under the General Criteria and the Program Criteria for both Electrical and Computer Engineering. This program provides a strong technical and ethical foundation within a faith-based environment, enabling students to design and build innovative systems and devices. Graduates are prepared to address emerging challenges, uphold professional integrity, and play vital roles in shaping the technological landscape of the future
What is Electrical and Computer Engineering?
Engineers use science, math, and fundamental principles to solve problems. This may include designing new devices and systems, testing those systems, investigating failures, overseeing manufacturing or construction, research leading to new technologies, and many other activities. Examples of work done by electrical or computer engineers include:
- electrical/electronic systems for aircraft and spacecraft, including RADAR, voice and data communications, and electrical power for these systems, as well as flight controls and instrumentation (altitude, air speed, etc.);
- mobile devices and the wireless networks that connect them;
- computer hardware and software, from simple microcontrollers to complex, high-performance computing clusters;
- smart and autonomous systems that integrate artificial intelligence, machine learning, robotics, and embedded systems, such as drones, self-driving vehicles, and intelligent consumer devices;
- materials used in the manufacturing of electrical devices and components, such as silicon for integrated circuits and photovoltaic cells or various metals used in batteries;
- lasers, optics, and optical fibers for data communication;
- electrical energy storage and generation, including conventional, solar, wind, and wave.
Many of these areas—including emerging topics like AI, machine learning, and intelligent systems—are reflected in the B.S. in Electrical and Computer Engineering curriculum through required and elective courses, in addition to extra-curricular activities, student projects, and undergraduate research opportunities. Learn more about electrical and computer engineering at tryengineering.com or this IEEE brochure.
What do Electrical and Computer Engineering (ECE) students study?
The ECE curriculum consists of two main course stems. In the electrical stem, students study signals and systems, electromagnetics, electronic circuit design and control systems design. In the computer stem, students study digital logic design, computer organization, embedded computer systems, hardware/software design and digital signal processing.
With these two required stems, students gain a foundation in the major areas of electrical and computer engineering and are prepared for careers in a broad spectrum of industries. Elective courses allow a student to study a specialized field of interest, including areas like communication and networking, signal and image processing, optics and photonics, control and robotics, digital and embedded systems, wireless and microwave systems, and power and energy systems. Learn more about our curriculum here.
Careers & Outcomes for ECE Graduates
ECE graduates are in demand across industries—from advanced computing, communications, energy, and semiconductors to robotics, cybersecurity, and health tech. At Baylor, you don’t navigate that landscape alone. Our ECS Career Center is located right in the engineering and computer science complex, with dedicated staff who support you on résumés, mock interviews, internship searches, salary negotiation, and more.
A hallmark of Baylor ECS is the 4-Year Professional Development Plan. Starting in the first year, students follow a structured pathway that builds career readiness step by step—through workshops, employer networking, alumni panels, career courses for credit, and hands-on guidance. Progress is tracked throughout a student’s time at Baylor, ensuring graduates leave with both the technical expertise and professional polish that employers and graduate programs expect.
Each semester, students also benefit from career events that bring a broad range of companies and organizations to campus, alongside site visits and alumni connections that open doors to internships and full-time opportunities.
Curious about outcomes? Explore placement rates, graduate-school trends, and salary data tracked by the ECS Career Center on the official Career Success Data page:
View Baylor ECS Career Success Data »
Are there ECE student organizations?
While ECE students participate in many organizations across the campus, there are organizations dedicated specifically to students in the major. From the Institute of Electrical and Electronics Engineers (IEEE) to the National Society of Black Engineers (NSBE) to the Society of Women Engineers (SWE) to Engineers with a Mission, students have opportunities to engage in leadership, professional development, student projects, and service. Learn more about our student organizations.
All students in the school of Engineering and Computer Science can apply to live in the Teal Residential College.
What is ABET?
The BSECE degree is accredited by ABET, the Accreditation Board for Engineering and Technology. ABET accreditation in engineering provides assurance that a university program meets the quality standards of the profession. Students seeking to become a licensed Professional Engineer (PE) post-graduation must graduate from an ABET-accredited program. Learn more about our ABET accreditation.
Curriculum for the Bachelor of Science in ECE
View or download the Flow Chart for the Bachelor of Science in ECE.
Students pursuing the Bachelor of Science in Electrical and Computer Engineering complete a rigorous course of study that includes courses from the Humanities and Social Sciences, Mathematics and Basic Sciences, and Engineering. Electrical and Computer Engineering professionals are required to demonstrate strong written and spoken communication skills, an understanding of engineering economics, and familiarity with engineering ethics.
This course of study prepares students well for careers in industry, government, education, and non-profits. B.S. Degree in Electrical and Computer Engineering
ECE Major Requirements – 62 semester hours
- Introduction to Engineering – 6 hours o EGR 1301 and 1302
- Computer Science – 4 hours o CSI 1430
- Electrical Foundation – 17 hours o ELC 2130, 2330, 3114, 3314, 3335, 3337, 4332
- Computer Foundation – 17 hours o ELC 2137, 2337, 3336, 3338, 4351, 4438
- Engineering Design – 6 hours o EGR 3380 and 4390
- Engineering Electives – 12 hours, examples include:
- Introduction to Robotics
- Power Systems
- Electric and Hybrid Vehicles
- Advanced Digital Logic
- RF Electronics
- Optics
- Bioinstrumentation
Math and Science - 32 semester hours
General Requirements - 23 to 28 semester hours
- Chapel, English, Religion, Literature, Political Science, Economics and Ethics
Additional Information
The requirements for the degree as well as course descriptions can be found in the Undergraduate Catalog.
Contact ECS Advising for more information.
Have more questions?
For more information about our undergraduate program, contact ECS Student Services.
Find out more information about our graduate programs here.