The basic EE curriculum requires 120 credits for graduation. The courses comprising these 120 credits can be categorized into eight areas:

1. Mathematics and the Basic Sciences
2. Introduction to Engineering Design
3. Disciplinary Foundation of Electrical
4. Required EE Technical Electives
5. General Technical Electives
6. Professional Writing
7. CORE (General Education Requirements)

1. Mathematics and the Basics Sciences - 29 credits

This area comprises 32 credits. These courses stress the mathematical techniques and scientific principles upon which engineering is based. These courses are required and include the following:

MATH140: Calculus I (4 credits)
MATH141: Calculus II (4 credits)
MATH241: Calculus III (4 credits)
MATH246: Differential Equations for Scientists & Engineers (3 credits)
MATH4xx: One 400-level math course (Credits included in Non-EE Tech Elective credits)
PHYS161: General Physics, Mechanics and Particles Dynamics (3 credits)
PHYS260/261: General Physics, Vibrations, Waves, Heat, and E/M (4 credits)
PHYS270/271: General Physics, Electrodynamics, Light, Relativity & Modern Physics (4 credits)
CHEM135: General Chemistry for Engineers (3 credits)

2. Introduction to Engineering Design - 3 credits

This requirement is fulfilled by completing ENES100: "Introduction to Engineering Design." This course introduces first year students to the engineering design experience.

As an ENES100 student you will be assigned to a team which is required to prepare reports and presentations that summarize the design process and product performance of the technologic device they are working on. You will learn how to work successfully in teams and develop an understanding of group dynamics. Basic science and engineering principles are also covered in the class. You will also develop various computer skills including familiarity with internet and library databases for research, basic spread sheets, and essential word processor and graphical presentation software. Other objectives include learning about the role engineers play in our modern society and an introduction to some engineering ethics concepts. Finally, there are numerous opportunities throughout the course for you to develop and improve your communication skills.

3. Disciplinary Foundation of Electrical Engineering - 38 credits

The Disciplinary Foundation is the core of the Electrical Engineering degree and totals 37 credits. Students are required to take courses in circuits and microelectronics, electrophysics, computers/programming, and electrical systems. These courses cover the fundamental electrical engineering concepts and laboratory skills common to any professional working in the field.

ENEE114: Programming Concepts for Engineering (3 credits)
ENEE204: Basic Circuit Theory (3 credits)
ENEE206: Fundamental Electric and Digital Circuits Laboratory (2 credits)
ENEE241: Numerical Techniques in Engineering (3 credits)
ENEE244: Digital Logic Design (3 credits)
ENEE303: Analog and Digital Electronics (3 credits)
ENEE307: Electronic Circuits Design Laboratory (2 credits)
ENEE313: Introduction to Device Physics (3 credits)
ENEE322: Signal and System Theory (3 credits)
ENEE324: Engineering Probability (3 credits)
ENEE350: Computer Organization (3 credits)
ENEE380: Electromagnetic Theory (3 credits)
ENEE381: Electromagnetic Wave Propagation (3 credits)

4. Electrical Engineering Technical Electives - 13 credits

In addition to the required engineering courses, students must complete 13 credits of required, upper-level electrical engineering electives. The elective courses are divided into three categories:

1. Advanced Theory and Applications (Minimum 3 credits)
2. Advanced Laboratory (Minimum 2 credits)
3. Capstone Design Course(Minimum 3 credits)

The remaining five credits may be taken from any one category or combination of categories. See the list of approved ENEE Technical Electives for details on which courses fall into what categories.

5. Non-EE Technical Electives - 12 credits

All students are expected to complete at least 12 credits of Non-EEl Technical Electives. As part of these technical electives, EE students must successfully complete one 400-level mathematics course. The remaining 9 credits (beyond the 400-level MATH) of technical electives are selected from a list of approved non-electrical engineering (non-EE) technical electives.

Note: Students must earn a 'C' or higher in engineering courses (i.e., those with the prefix ENXX) used to satisfy this requirement. Students who entered an institution of higher learning in spring 2005 or after must earn a 'C' or higher in all courses used to satisfy this requirement.

6. Professinal Writing - 3 credits

The required course to satisfy the Professional Writing requirement is ENGL 393: Technical Writing. (NOTE: Engineering students are not exempt from this requirement even if they earn an 'A' in ENGL101.)

7. CORE (General Education Requirements)

A degree from the University of Maryland signifies more than just mere technical or narrowly defined career training. Students are offered a liberal education that prepares them to achieve the intellectual integration and awareness they need to meet challenges in their personal, social, political, and professional lives. As such, all graduates are required to complete the University's general education or CORE requirements. The CORE requirements are equivalent to a maximum of forty-three (43) credits of coursework. The equivalent of twenty-two (22) of these credits can be satisfied by simply completing the requirements of the major. Thus, CORE typically requires students to complete an additional twenty-one (21) credits beyond the major requirements. For details on the general education program please visit the CORE website.

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