College Prep for Electrical and Electronics Engineering Majors

Electrical and Electronic engineering is a fascinating field driving scientific and technological progress, creating the tools that advance society and improve our quality of life. Electrical and Electronic Engineering involves applying of analytical thinking, and design skills to create innovative solutions. The Electrical and Electronic Engineering program positions you at the exciting cutting edge of electronic design, power generation and communication.

Students in this program should take classes in Basic English, history and social science. In addition to these, electrical and electronic engineering programs typically require multiple semesters of physics and calculus. Electrical and Electronic Engineering requires course work in both the technical and professional aspects of electricity, electronics and the application of those technologies.

Because Electrical and Electronic engineers must be skilled communicators, they should also have had formal and informal oral presentation course at the undergraduate level. The undergrad course in Electrical and Electronic engineering also places considerable emphasis on technical report writing, team projects, and formal and informal oral presentation.

General Education Courses: Students must complete general education courses such as social sciences, humanities, chemistry, physics and advanced mathematics. Math and physics are at the heart of this program. Students must also complete English composition courses, economics and public speaking courses.

A Well-Grounded Education: Electrical and Electronic Engineering Program requires several classes more concerned with application than technical theory. The EEE program should have classes to familiarize students with how to approach design projects and introduce them to the computer-aided design tools used for simulation and modeling. The most common technical course work is in circuits and electromagnetic. Classes in circuits cover the basics of circuit behavior in direct and alternating current contexts, the mathematic representation of circuits and the theory and methodology of circuit analysis. Classes in electromagnetic teach students about electromagnetic fields. This study starts with detailed lessons in the properties of electromagnetic waves, such as their frequency, phase velocity and attenuation.  Therefore, students must complete these classes at various levels.

Skill Development: Students should have Knowledge and understanding of electrical and electronic principles, control theories, electrical systems, communication techniques, computing techniques, analogue and digital circuit design, microprocessor systems, software engineering, embedded systems and IC design and digital signal processing underpinned by mathematics and science. Students should also possess extensive knowledge of analytical, mathematical and problem-solving.

Graduate Record Exam (GRE): The applicants must provide official GRE scores from an examination taken within the last 5 years. All applicants from a university outside the US are required to submit General GRE scores for admission consideration.

TOEFL (Test of English as a Foreign Language): All applicants from countries in which the official language is not English are required to submit official evidence of English language proficiency. Hence, the applicants are required to take TOEFL and submit the scores of the same.

Letters of recommendation: Three letters of recommendation are required for the admission. These should be from faculty you have worked with closely or supervisors from industry-related work experience. A recommendation letter is a detailed discussion of the personal qualities, accomplishments, and experiences that make you unique and perfect for the program to which you've applied.

Personal Statement: The personal statement should provide the information about your interest and goals. So, the applicants should recognize and focus of what they want and tell the admission panel about their ambitions, experiences, challenges, accomplishments and involvement. Be open and reflective.

Experience/ Internship: An internship allows students to apply the scientific and engineering principles they learned in school to current engineering problems in a business setting.  Applicants who receive internship experience often are viewed as a graduate school material. These experiences combined with classroom instruction can prepare students to diagnose problems and develop different solutions.

Undergraduate GPA: The applicant must have an undergraduate grade point average of at least 3.0.

Academic Transcripts: Transcripts which include your name, the name of the institution, the courses undertaken at the undergrad level, and grades or scores along with the application for initial departmental review are required. You can also attach a brief, one-page note describing any inconsistencies in your transcripts such as bad semester or medical problems.

• Math
• Physics & Chem.
• Intro. Computing
• Mechanics & Thermodynamics
• Electromagnetic Fields
• Logic Circuits & Lab
• Computer Architecture & Switching
• Circuits & Electronics & Labs
• Energy Conversion
• Linear Systems
• Oral/Written Communications
• Social Science/Humanities
• Topics in business and arts and sciences may also be includes.