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Electrical Engineering, B.S.

At ÐÔÅ«µ÷½Ì’s School of Science and Engineering, we have developed a unique, hands-on electrical engineering program that incorporates analysis, design and development of electrical systems.

As a student in the electrical engineering program at ÐÔÅ«µ÷½Ì, you will gain a solid foundation through a combination of coursework and hands-on learning. You will use the physical properties of electricity and mathematics to design systems that collect, analyze and use information as well as distribute and utilize electrical energy and design the electrical systems that are at the heart of today’s technology such as smartphones, tablets, internet-ready televisions, satellites and many other devices.

With easy access to a sophisticated design laboratory and other technological spaces, graduates will have the necessary skills for entry into the profession as productive and effective engineers or to pursue graduate education.

A Bachelor of Science (B.S.) in Electrical Engineering can also be obtained with the following options:

  • Bachelor of Science (B.S.) in Electrical Engineering, emphasis in bioelectronics (pre-health)
  • Bachelor of Science (B.S.) in Electrical Engineering, emphasis in bioelectronics (engineering emphasis)

The bioelectronics concentration is a joint effort between the electrical engineering and biomedical engineering programs. The course of study combines science and engineering, incorporating courses in biology, chemistry, math, biomedical engineering, electrical and electronic engineering and others.Ìý

Curriculum Overview

ÐÔÅ«µ÷½Ì's electrical engineering program coursework provides students with both breadth and depth in electrical engineering. The program develops in students the ability to apply knowledge of mathematics, sciences and electrical engineering to find solutions to practical problems. It ensures that graduates have an opportunity to work on multidisciplinary teams and develop effective communication skills.

In addition to a strong focus on core areas of electrical engineering, the program provides a design experience that is integrated throughout the program by introducing fundamental elements of the design process throughout student coursework. The program also includes a two-semester design sequence to provide a meaningful and significant engineering design experience that focuses on and prepares students for professional practice.

Fieldwork and Research Opportunities

ÐÔÅ«µ÷½Ì's B.S. degree in electrical engineering is designed to give students the tools they need to excel regardless of the industry in which they choose to work.

Electrical engineering students benefit from many internship and career opportunities. Students are encouraged and assisted in obtaining summer internships in local, national and international companies through ÐÔÅ«µ÷½Ì’s Career Services. Undergraduate students have opportunities to conduct research with School of Science and Engineering faculty during the summer, fall and spring semesters.

The program supports many club activities that involve electrical engineering practice as part of their activities. These include IEEE, autonomous mobile robotics, cube satellite design, AUVSI autonomous flight and others. These extracurricular activities enhance the lessons learned in the classroom and help students gain invaluable experience that will prepare them for their careers after graduation.

Careers

Students who graduate from the program with the bioelectronics concentration in electrical engineering will find a wealth of career opportunities in the bioengineering industry. Examples are hospital clinical engineering, medical-device manufacturing/vendors, health care research and design centers and medical/university laboratories.

Students pursuing the pre-health emphasis are well prepared to enter a highly challenging and rewarding field of medicine.Ìý Bioelectronics with the pre-health emphasis provides an excellent opportunity for future medical doctors to be well versed in technological advances. It allows for much greater integration and innovation of technology in medicine, for example, the uses of MRI and CT scans.

Our graduates have found employment at companies and government agencies such as:

  • Ameren
  • Boeing
  • Emerson Electric
  • Intel
  • Rockwell
  • SpaceX
  • Tellabs
  • Texas Instruments
  • U.S. Air Force

Admission Requirements

Begin Your Application

ÐÔÅ«µ÷½Ì also accepts the Common Application.

Freshman

All applications are thoroughly reviewed with the highest degree of individual care and consideration to all credentials that are submitted. Solid academic performance in college preparatory coursework is a primary concern in reviewing a freshman applicant’s file.

To be considered for admission to any ÐÔÅ«µ÷½Ì undergraduate program, applicants must be graduating from an accredited high school, have an acceptable HiSET exam score or take the General Education Development (GED) test.Ìý

Transfer

Applicants must be a graduate of an accredited high school or have an acceptable score on the GED.

Students who have attempted fewer than 24 semester credits (or 30 quarter credits) of college credit must follow the above freshmen admission requirements. Students who have completed 24 or more semester credits (or 30 quarter credits) of college credit mustÌýsubmit transcripts from all previously attended college(s).

In reviewing a transfer applicant’s file, the Office of Admission holistically examines the student’s academic performance in college-level coursework as an indicator of the student’s ability to meet the academic rigors of ÐÔÅ«µ÷½Ì. Where applicable, transfer students will be evaluated on any courses outlined in the continuation standards of their preferred major.

International Applicants

All admission policies and requirements for domestic students apply to international students along with the following:

  • Demonstrate English Language Proficiency
  • Proof of financial support must include:
    • A letter of financial support from the person(s) or sponsoring agency funding the time at ÐÔÅ«µ÷½Ì
    • A letter from the sponsor's bank verifying that the funds are available and will be so for the duration of study at the University
  • Academic records, in English translation, of students who have undertaken post-secondary studies outside the United States must include the courses taken and/or lectures attended, practical laboratory work, the maximum and minimum grades attainable, the grades earned or the results of all end-of-term examinations, and any honors or degrees received. WES and ECE transcripts are accepted.

Additional Admission Requirements

In addition to the general admission and matriculation requirements of the University, applicants to ÐÔÅ«µ÷½Ì’s engineering programs must meet the following requirements:

  • GPA: Minimum cumulative 3.00 high school GPA for freshmen applicants and 2.70 college GPA for transfer applicants.
  • Coursework: Fifteen total units of high school work are required: three or four units of English; four or more units of mathematics, including algebra I and II, geometry and precalculus (Algebra II with Trigonometry is not sufficient). Students should be prepared to start the first semester of freshmen year in Calculus I or higher; three or four units of science, including general science, introduction to physical science, earth science, biology, physics or chemistry; two or three units of social sciences including history, psychology or sociology; and three units of electives.

Admission to the School of Science and Engineering’s degree programs is based on a combination of secondary school grades, college admission test scores, co-curricular activities and attempted college coursework, as well as other indicators of the applicant’s ability, career focus and character. This process respects the non-discrimination policy of the University and is designed to select a qualified, competent and diverse student body with high standards of scholarship and character, consistent with the mission of the University.

°Õ³Ü¾±³Ù¾±´Ç²ÔÌý

Tuition Cost Per Year
Undergraduate Tuition $54,760

Additional charges may apply. Other resources are listed below:

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Information on Tuition and Fees

Miscellaneous Fees

Information on Summer Tuition

Scholarships and Financial Aid

There are two principal ways to help finance a ÐÔÅ«µ÷½Ì education:

  • Scholarships: Scholarships are awarded based on academic achievement, service, leadership and financial need.
  • Financial Aid: Financial aid is provided through grants and loans, some of which require repayment.

ÐÔÅ«µ÷½Ì makes every effort to keep our education affordable. In fiscal year 2023, 99% of first-time freshmen and 92% of all students received financial aid and students received more than $459 million in aid University-wide.

For priority consideration for merit-based scholarships, apply for admission by December 1 and complete a Free Application for Federal Student Aid (FAFSA) by March 1.

For more information on scholarships and financial aid, visit the Office of Student Financial Services.

Accreditation

The Electrical Engineering, B.S. is accredited by the Engineering Accreditation Commission ofÌýABET,Ìý, under the commission's General Criteria and Program Criteria for Electrical, Computer, Communications, Telecommunication(s), and Similarly Named Engineering Programs.

See Enrollment and Graduation Data for Electrical Engineering

The Electrical Engineering, B.S. is accredited by the Engineering Accreditation Commission ofÌýABET,Ìý, under the commission's General Criteria and Program Criteria for Electrical, Computer, Communications, Telecommunication(s), and Similarly Named Engineering Programs.

Program Educational Objectives

The undergraduate program is designed to meet the following specific program educational objectives:

  • Our graduates will have acquired advanced degrees or are engaged in advanced study in engineering, business, law, medicine or other appropriate fields.
  • Our graduates will have established themselves as practicing engineers in electrical, computer or related engineering fields.
  • Our graduates will be filling the technical needs of society by solving engineering problems using electrical or computer engineering principles, tools and practices.

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Student outcomes are defined by ABET as the skills that graduates will attain at the time of graduation. Student outcomes are listed below:

  1. Identify, formulate, and solve complex engineering problems by applying principles of engineering, science and mathematics.
  2. Apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors.
  3. Communicate effectively with a range of audiences.
  4. Recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts.
  5. Function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives.
  6. Develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions.
  7. Acquire and apply new knowledge as needed, using appropriate learning strategies.
University Undergraduate Core32-35
Basic Engineering and Communication
³§·¡Ìý1700Engineering Fundamentals2
·¡°ä·¡Ìý1001Introduction to Electrical and Computer Engineering I1
·¡±·³Ò³¢Ìý1920Advanced Writing for Professionals3
Basic Science and Mathematics
°ä±á·¡²ÑÌý1110
&²¹³¾±è;Ìý°ä±á·¡²ÑÌý1115
General Chemistry 1
and General Chemistry 1 Laboratory
4
²Ñ´¡°Õ±áÌý1510Calculus I4
±Ê±á³Û³§Ìý1610
&²¹³¾±è;Ìý±Ê±á³Û³§Ìý1620
University Physics I
and University Physics I Laboratory
4
±Ê±á³Û³§Ìý1630
&²¹³¾±è;Ìý±Ê±á³Û³§Ìý1640
University Physics II
and University Physics II Laboratory
4
²Ñ´¡°Õ±áÌý1660Discrete Mathematics3
²Ñ´¡°Õ±áÌý1520Calculus II4
²Ñ´¡°Õ±áÌý2530Calculus III4
²Ñ´¡°Õ±áÌý3550Differential Equations3
·¡°ä·¡Ìý3052Probability and Random Variables for Engineers3
Electrical Engineering
·¡°ä·¡Ìý1100Electrical Engineering 1012
·¡°ä·¡Ìý1200Computer Engineering 1012
·¡°ä·¡Ìý2101
&²¹³¾±è;Ìý·¡°ä·¡Ìý2103
Electrical Circuits I
and Electrical Circuits Lab
4
·¡°ä·¡Ìý2205
&²¹³¾±è;Ìý·¡°ä·¡Ìý2206
Digital Design
and Digital Design Lab
4
·¡°ä·¡Ìý3225
&²¹³¾±è;Ìý·¡°ä·¡Ìý3226
Microprocessors
and Microprocessors Laboratory
4
·¡°ä·¡Ìý3130Semiconductor Devices3
·¡°ä·¡Ìý3131
&²¹³¾±è;Ìý·¡°ä·¡Ìý3132
Electronic Circuit Design
and Electronic Circuit Design Lab
4
·¡°ä·¡Ìý3140Electromagnetic Fields3
·¡°ä·¡Ìý3150
&²¹³¾±è;Ìý·¡°ä·¡Ìý3151
Linear Systems
and Linear Systems Lab
4
·¡°ä·¡Ìý3090Junior Design1
·¡°ä·¡Ìý4800Electrical and Computer Engineering Design I3
·¡°ä·¡Ìý4810Electrical and Computer Engineering Design II3
Internship and Co-op
Although not required, students can elect to participate in an internship or cooperative experience before graduation.
Select from the following:0
·¡°ä·¡Ìý2910
Co-op in Electrical and Computer Engineering
·¡°ä·¡Ìý3910
Co-op with Industry
·¡°ä·¡Ìý4910
Co-Op with Industry
·¡°ä·¡Ìý2915
Internship with Industry
·¡°ä·¡Ìý3915
Internship with Industry
·¡°ä·¡Ìý4915
Internship with Industry
Track or Concentration34-38
Choose one:
Total Credits130-137

Standard Track

²Ñ´¡°Õ±áÌý3110Linear Algebra for Engineers3
²Ñ·¡±·³ÒÌý2310Thermodynamics3
°ä³§°ä±õÌý1300Introduction to Object-Oriented Programming4
·¡°ä·¡Ìý3110Electric Energy Conversion3
·¡°ä·¡Ìý4120Automatic Control Systems3
·¡°ä·¡Ìý4140Electromagnetic Waves3
·¡°ä·¡Ìý4160Communication Systems3
ECE Electives6
Students are required to take six (6) credits from an approved list and as offered. A partial list is given below. Please check with the program for a complete list of approved electives. Electives cannot be used to satisfy other curriculum requirements.
·¡°ä·¡Ìý3217
Computer Architecture and Organization
·¡°ä·¡Ìý4170
Energy Technologies I
·¡°ä·¡Ìý4110
Power Systems Analysis I
·¡°ä·¡Ìý4153
Image Processing
·¡°ä·¡Ìý4226
Mobile Robotics
·¡°ä·¡Ìý4132
Analog Integrated Circuit Design
·¡°ä·¡Ìý4235
Digital IC Design
·¡°ä·¡Ìý4141
Radar Systems
·¡°ä·¡Ìý4245
Computer Networks Design
·¡°ä·¡Ìý4150
Filter Design
·¡°ä·¡Ìý4151
Digital Signal Processing
·¡°ä·¡Ìý4161
Satellite Communication
·¡°ä·¡Ìý4162
Cellular Communications
Technical Electives 16
Select two 3-credit courses.
Total Credits34

Bioelectronics ConcentrationÌý

µþ±õ°¿³¢Ìý1240
&²¹³¾±è;Ìýµþ±õ°¿³¢Ìý1245
General Biology: Information Flow and Evolution
and Principles of Biology I Laboratory
4
°ä±á·¡²ÑÌý1120
&²¹³¾±è;Ìý°ä±á·¡²ÑÌý1125
General Chemistry 2
and General Chemistry 2 Laboratory
4
²Ñ·¡±·³ÒÌý2310Thermodynamics3
²Ñ´¡°Õ±áÌý3110Linear Algebra for Engineers3
·¡°ä·¡Ìý4120Automatic Control Systems3
µþ²Ñ·¡Ìý2000Biomedical Engineering Computing3
µþ²Ñ·¡Ìý2200Applied Physiology for Engineers3
µþ²Ñ·¡Ìý3150Biomedical Instrumentation3
µþ²Ñ·¡Ìý4100BioData Processing and Machine Learning3
BME or ECE Electives6
Students are required to take six (6) credits from an approved list and as offered. A partial list is given below. Please check with the program for a complete list of approved electives. Electives cannot be used to satisfy other curriculum requirements.
µþ²Ñ·¡Ìý4200
Biomechanics
µþ²Ñ·¡Ìý4300
Biotransport
µþ²Ñ·¡Ìý4400
Biomaterials
µþ²Ñ·¡Ìý4410
Tissue Engineering
µþ²Ñ·¡Ìý4600
Quantitative Physiology I
µþ²Ñ·¡Ìý4150
Brain Computer Interface
µþ²Ñ·¡Ìý4650
Quantitative Physiology II
µþ²Ñ·¡Ìý4980
Independent Research
·¡°ä·¡Ìý4170
Energy Technologies I
·¡°ä·¡Ìý4110
Power Systems Analysis I
·¡°ä·¡Ìý4153
Image Processing
·¡°ä·¡Ìý4226
Mobile Robotics
·¡°ä·¡Ìý4132
Analog Integrated Circuit Design
·¡°ä·¡Ìý4235
Digital IC Design
·¡°ä·¡Ìý4141
Radar Systems
·¡°ä·¡Ìý4245
Computer Networks Design
·¡°ä·¡Ìý4150
Filter Design
·¡°ä·¡Ìý4151
Digital Signal Processing
·¡°ä·¡Ìý4161
Satellite Communication
·¡°ä·¡Ìý4162
Cellular Communications
Total Credits35

Pre-Health Concentration

µþ±õ°¿³¢Ìý1240
&²¹³¾±è;Ìýµþ±õ°¿³¢Ìý1245
General Biology: Information Flow and Evolution
and Principles of Biology I Laboratory
4
µþ±õ°¿³¢Ìý1260
&²¹³¾±è;Ìýµþ±õ°¿³¢Ìý1265
General Biology: Transformations of Energy and Matter
and Principles of Biology II Laboratory
4
°ä±á·¡²ÑÌý1120
&²¹³¾±è;Ìý°ä±á·¡²ÑÌý1125
General Chemistry 2
and General Chemistry 2 Laboratory
4
°ä±á·¡²ÑÌý2410
&²¹³¾±è;Ìý°ä±á·¡²ÑÌý2415
Organic Chemistry 1
and Organic Chemistry 1 Laboratory
4
°ä±á·¡²ÑÌý2420
&²¹³¾±è;Ìý°ä±á·¡²ÑÌý2425
Organic Chemistry 2
and Organic Chemistry 2 Laboratory
4
°ä±á·¡²ÑÌý3600Principles of Biochemistry3
±Ê³§³ÛÌý1010General Psychology3
³§°¿°äÌý1100Introduction to Sociology3
µþ²Ñ·¡Ìý2000Biomedical Engineering Computing3
µþ²Ñ·¡Ìý2200Applied Physiology for Engineers3
BME or ECE Electives3
Students are required to take three (3) credits from an approved list and as offered. A partial list is given below. Please check with the program for a complete list of approved electives. Electives cannot be used to satisfy other curriculum requirements.
µþ²Ñ·¡Ìý3150
Biomedical Instrumentation
µþ²Ñ·¡Ìý4100
BioData Processing and Machine Learning
µþ²Ñ·¡Ìý4200
Biomechanics
µþ²Ñ·¡Ìý4300
Biotransport
µþ²Ñ·¡Ìý4400
Biomaterials
µþ²Ñ·¡Ìý4410
Tissue Engineering
µþ²Ñ·¡Ìý4600
Quantitative Physiology I
µþ²Ñ·¡Ìý4650
Quantitative Physiology II
µþ²Ñ·¡Ìý4980
Independent Research
·¡°ä·¡Ìý3110
Electric Energy Conversion
·¡°ä·¡Ìý4225
Hardware/Software Co-Design
·¡°ä·¡Ìý4226
Mobile Robotics
·¡°ä·¡Ìý4235
Digital IC Design
Total Credits38

Non-Course Requirements

All Science and Engineering B.A. and B.S. students must complete an exit interview/survey near the end of their bachelor's program.Ìý

Continuation Standards

Students must maintain a minimum 2.00 GPA

1

Two 3-credit courses selected from an approved list in science, mathematics, Computer Science, or engineering, at the 2000-level or higher.

Roadmaps are recommended semester-by-semester plans of study for programs and assume full-time enrollmentÌýunless otherwise noted. Ìý

Courses and milestones designated as critical (marked with !) must be completed in the semester listed to ensure a timely graduation. Transfer credit may change the roadmap.

This roadmap should not be used in the place of regular academic advising appointments. All students are encouraged to meet with their advisor/mentor each semester. Requirements, course availability and sequencing are subject to change.

Plan of Study Grid
Year One
FallCredits
·¡°ä·¡Ìý1001 Introduction to Electrical and Computer Engineering I 1
³§·¡Ìý1700 Engineering Fundamentals 2
°ä±á·¡²ÑÌý1110
&²¹³¾±è;Ìý°ä±á·¡²ÑÌý1115
General Chemistry 1
and General Chemistry 1 Laboratory
4
·¡±·³Ò³¢Ìý1920 Advanced Writing for Professionals 1 3
²Ñ´¡°Õ±áÌý1510 Calculus I 4
·¡°ä·¡Ìý1100 Electrical Engineering 101 2
CORE Requirement 3
Equity and Global Identities: Identities in Context
Ìý
Ways of Thinking: Social and Behavioral Sciences
Ìý
ÌýCredits19
Spring
°ä³§°ä±õÌý1300 Introduction to Object-Oriented Programming 4
²Ñ´¡°Õ±áÌý1660 Discrete Mathematics 3
²Ñ´¡°Õ±áÌý1520 Calculus II 4
Critical course: Ìý±Ê±á³Û³§Ìý1610
&²¹³¾±è;Ìý±Ê±á³Û³§Ìý1620
University Physics I
and University Physics I Laboratory
4
·¡°ä·¡Ìý1200 Computer Engineering 101 2
COREÌý2500 Cura Personalis 2: Self in Contemplation 0
ÌýCredits17
Year Two
Fall
Critical course: Ìý·¡°ä·¡Ìý2101
&²¹³¾±è;Ìý·¡°ä·¡Ìý2103
Electrical Circuits I
and Electrical Circuits Lab
4
COREÌý1200 Eloquentia Perfecta 2: Oral and Visual Communication 3
²Ñ´¡°Õ±áÌý2530 Calculus III 4
±Ê±á³Û³§Ìý1630
&²¹³¾±è;Ìý±Ê±á³Û³§Ìý1640
University Physics II
and University Physics II Laboratory
4
COREEquity and Global Identities: Global Interdependence 0-3
ÌýCredits15-18
Spring
·¡°ä·¡Ìý2205
&²¹³¾±è;Ìý·¡°ä·¡Ìý2206
Digital Design
and Digital Design Lab
4
²Ñ´¡°Õ±áÌý3110 Linear Algebra for Engineers 3
²Ñ´¡°Õ±áÌý3550 Differential Equations 3
²Ñ·¡±·³ÒÌý2310 Thermodynamics 3
·¡°ä·¡Ìý3052 Probability and Random Variables for Engineers 3
ÌýCredits16
Year Three
Fall
·¡°ä·¡Ìý3110 Electric Energy Conversion 3
·¡°ä·¡Ìý3225
&²¹³¾±è;Ìý·¡°ä·¡Ìý3226
Microprocessors
and Microprocessors Laboratory 3
4
·¡°ä·¡Ìý3130 Semiconductor Devices 3
Critical course: Ìý·¡°ä·¡Ìý3150
&²¹³¾±è;Ìý·¡°ä·¡Ìý3151
Linear Systems
and Linear Systems Lab 3
4
COREÌý3500 Cura Personalis 3: Self in the World 1
ÌýCredits15
Spring
·¡°ä·¡Ìý3131
&²¹³¾±è;Ìý·¡°ä·¡Ìý3132
Electronic Circuit Design
and Electronic Circuit Design Lab
4
·¡°ä·¡Ìý3090 Junior Design 1
·¡°ä·¡Ìý4120 Automatic Control Systems 3
·¡°ä·¡Ìý3140 Electromagnetic Fields 3
·¡°ä·¡Ìý4160 Communication Systems 9 3
COREÌý2800 Eloquentia Perfecta 3: Creative Expression 2-3
ÌýCredits16-17
Year Four
Fall
·¡°ä·¡Ìý4800 Electrical and Computer Engineering Design I 5 3
COREÌý1700 Ultimate Questions: Philosophy 3
·¡°ä·¡Ìý4140 Electromagnetic Waves 3
ECE Elective 6 3
Technical Elective 7 3
COREEloquentia Perfecta: Writing Intensive 0-3
ÌýCredits15-18
Spring
·¡°ä·¡Ìý4810 Electrical and Computer Engineering Design II 3
CORE Requirement 3
Equity and Global Identities: Dignity, Ethics, and a Just Society
Ìý
Ways of Thinking: Aesthetics, History, and Culture
Ìý
COREÌý1600 Ultimate Questions: Theology 3
ECE Elective 6 3
COREÌý4500 Reflection-in-Action 0
COREÌý4000 Collaborative Inquiry 0-3
Technical Elective 7 3
ÌýCredits15-18
ÌýTotal Credits128-138
1

Students needing prerequisite work in writing skills as determined by ACT or SAT scores will be required to take ENGLÌý1500 The Process of Composition (3 cr)Ìý

2

Must be taken from a list of approved courses in Social and Behavioral Science including Economics

3

Prerequisite requirement of computer programming, either CSCIÌý1060 Introduction to Computer Science: Scientific Programming (3 cr), °ä³§°ä±õÌý1300 Introduction to Object-Oriented Programming (4 cr), or µþ²Ñ·¡Ìý2000 Biomedical Engineering Computing (3 cr)

4

Courses satisfying another major or minor, or a course satisfying the technical elective requirement

5

Requires senior standing (all required technical courses through the junior year have been completed and passed)

6

Must be taken from the approved list of ECE elective courses

7

Must be selected from courses in science, math, computer science, orÌýengineering at the 2000 level or higher.

8

Cannot be used to satisfy another core requirement

9

ECE 4160 Communications is only taught every other year.