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Dec 23, 2024
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University General Course Catalog 2025-2026 (DRAFT)
Electrical Engineering (Robotics, Autonomous/Aerial Vehicles, and Embedded Systems Emphasis), B.S. in E.E.
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Trained to be an expert thinker and problem solver, today’s electrical engineer is as much in demand as ever. Our mission is to serve society through excellence in education, research, and public service. We provide for our students an education in electrical engineering, and we aspire to instill in them the attitudes, values, and vision that will prepare them for lifetimes of continued learning and leadership in their chosen careers. Through scholarship the Department strives to generate new knowledge and technology for the benefit of the State of Nevada, the nation and beyond. Aware of the dynamic nature of the discipline, while at the same time cognizant of that body of knowledge which appears to be timeless, the Department of Electrical and Biomedical Engineering is continually in the process of evaluating and updating its curriculum. The Department of Electrical and Biomedical Engineering also cooperates with local industry to offer a number of summer internships for qualified undergraduate electrical engineering students. The curriculum for the Bachelor of Science in Electrical Engineering degree is listed below.
NOTE: The professional FE examination, administered by the state board of engineering registration, must be taken by all electrical engineering students before graduation during the senior year of study.
Accreditation information is available at https://www.unr.edu/ebme/about/assessment/ee
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Program Learning Outcomes
Students will be able to:
- identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics.
- 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.
- communicate effectively with a range of audiences.
- 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.
- function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives.
- develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions.
- acquire and apply new knowledge as needed, using appropriate learning strategies.
Transfer to the University of Nevada, Reno
Use the transfer agreement and the degree planner (available by clicking at the top right of this page) to build your plan for graduation with your advisor. Course substitutions not identified on the transfer agreement require UNR advisor approval.
If a major-to-major transfer agreement is not available for your transfer institution, please check the General Core agreement if available. If neither is available, access Transferology to assist in your planning.
Admission Requirements
Admission requirements and procedures are available at http://www.unr.edu/admissions#requirements. Only students who are eligible to enroll in MATH 181 (as demonstrated through placement tests) may enter specific major programs within the College of Engineering. Others may enter the undeclared engineering program. Undeclared engineering students must be admissible to a specific major program within four regular semesters (fall and spring).
NOTE: Students must earn a C or higher in courses marked with (*).
Graduation Requirements
- Total Units | 129
- Cumulative GPA | 2.0
- University GPA | 2.0
- Major GPA | 2.0
- Residency Requirement | 30 Upper-Division Units at UNR
- Major Residency Requirement | 15 Upper-Division units in the major at UNR including ENGR 301 and EE 491
- Upper-Division Requirement | 40 Upper-Division Units
- As per engineering accreditation requirements, students are required to have the following:
- a minimum of 30 semester credit hours of a combination of college-level mathematics and basic sciences with experimental experience appropriate to the program
- a minimum of 45 semester credit hours of engineering topics appropriate to the program, consisting of engineering and computer sciences and engineering design, and utilizing modern engineering tools
I. Core General Education Requirements (27-30 units)
NOTE: Refer to the Core Curriculum chapter of this catalog for information regarding the “Core English and Math Completion Policy .”
Students in this major must meet all Core Objectives (CO1 through CO14). Courses satisfying Core Objectives are designated (e.g., CO9) in General Catalog curricula and course descriptions.
A. Composition & Communication; Critical Analysis & Use of Information (3-6 units) - CO1, CO3
B. Quantitative Reasoning (4 units) - CO2
C. Physical & Natural Phenomena (8 units) - CO4, CO4L
D. Cultures, Societies, & Individuals (3 units) - CO6
E. Artistic Composition, Interpretation, & Expression (3 units) - CO7
F. History & Culture; Constitution (6 units) - CO5, CO8
Refer to the Core Curriculum chapter in this catalog.
II. Additional Core Requirements (3 units maximum)
Students must take courses that satisfy the following Core Objectives. Some or all of these Core Objectives may be satisfied in the Major Requirements (Section IV). Refer to the Core Curriculum chapter in this catalog.
A. Science, Technology & Society - CO9
B. Diversity & Equity - CO10
The following recommended courses can also be used in the General Education Requirement:
E. Capstone Integration & Synthesis - CO13
III. Additional College Requirements (0 units)
IV. Major Requirements (96-99 units)
A. Additional Mathematics and Sciences (20 units)
B. Required Engineering Courses (49 units)
C. Senior Required and Technical Electives Courses (27-30 units)
This emphasis, administered by the EBME Department, leads to a Bachelor of Science degree in Electrical Engineering. The program is designed for the student seeking a degree in electrical engineering with an emphasis on Robotics, Autonomous/Aerial Vehicles, and Embedded Systems.
Required Courses (9 units)
Technical Electives (18-21 units) (21 credits if CO7 and CO10 are satisfied with one course)
Students must have at least one course from three of the following Electives Categories: Robotics, Communications and Control, and Embedded Systems. Courses in each elective area are:
Communications and Control
Remaining Technical Elective Units
The remaining units may include any courses in electrical engineering or CS 202 .
At most, three units from the following may apply here.
V. Minor Requirements (0 units)
VI. Electives (0-3 units)
VII. Recommended Schedule
First Semester (17 units)
Spring Semester (17 units)
Spring Semester (16 units)
Spring Semester (16 units)
Spring Semester (16 units)
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