Bachelor of Science in Electrical Engineering

Electrical engineers are problem-solvers, finding optimal solutions to improve standards of living and workplace productivity. Analytically minded standouts in math, science and physics are strong candidates for careers in the field. Electrical engineering incorporates designing, developing, testing and supervising the manufacturing of electrical equipment such as electric motors, radar and navigation systems, communications systems, or power generation equipment.


At Ïã¸ÛÁùºÏ²Ê¿ª½±Íø, students majoring in engineering are being trained to be fundamentally sound and application-ready. Students can choose to major in electrical, industrial or mechanical engineering. Ïã¸ÛÁùºÏ²Ê¿ª½±Íø’s engineering programs feature a design-forward curriculum. In each of their first two years, engineering majors work in teams to complete a real-world design project mentored by an industry partner or research faculty. Third-year students may participate in a semester- or summer-long industry internship or research experience. Fourth-year students work in interdisciplinary teams to complete a year-long capstone, a real-world project with an industry partner.


The John R. Post School of Engineering houses new labs for undergraduate learning, containing millions of dollars of hands-on, real-world equipment and a continuously expanding maker space. Faculty-taught courses feature small class sizes with athlete-friendly scheduling. Regularly scheduled lunch-and-learn presentations feature local industry members looking for summer interns and full-time employees and research faculty presenting their innovative work.

In This Section
John R. Post School of Engineering

Getting Started

General Notes
  • A minimum of 123 credits are required for graduation.
  • Credits earned for COM 100 and MAT 100 do not count toward the 123 credits required for graduation; however, COM 100 students may petition for elective credit.
  • Where appropriate, courses required for the major can be used to satisfy General Education requirements. However, the credits earned for these courses are applied to either Gen Ed requirements or the major, not both.
  • Paths of Knowledge coursework may count towards major or minor requirements, but may not fulfill a second Mid-Level Liberal Arts Exploration requirement.
  • Students are expected to follow the catalog requirements for General Education, the major, and additional requirements.
  • A minor or second major within the areas listed under Paths of Knowledge automatically fulfills that area of the Gen Ed requirements.
Application Instructions

Through a rolling admission process, prospective undergraduate students — including first-year, transfer, and international students — may apply via the  or . To learn more about how to complete your application, please visit our application page.

Financing Your Education

There are options to assist in financing your education and making the tuition affordable. Visit our Student Financial Services page for a detailed overview of the process, including a link to complete the FAFSA application, as well as more information about tuition, the tuition payment plan and the tuition deferment program we offer. Ïã¸ÛÁùºÏ²Ê¿ª½±Íø’s Title IV code for the FAFSA is 003233. The Office of Student Financial Services is available to help with any questions you may have. Call 610-796-8201 or email sfs@alvernia.edu.

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Engineering
Why Choose Ïã¸ÛÁùºÏ²Ê¿ª½±Íø?
• A nationally ranked comprehensive regional university, Ïã¸ÛÁùºÏ²Ê¿ª½±Íø offers more than 50 majors and minors.
• An ever-expanding number of experiential learning opportunities includes internships, field experiences, co-ops, research projects, and study/service abroad programs.
• A rich campus life allows students to enjoy a full calendar of activities and events, more than 50 clubs, intramural sport and student leadership and governance opportunities.
• In growth mode, Ïã¸ÛÁùºÏ²Ê¿ª½±Íø continues to add value to its student experience: expanding academic programming in new facilities; adding student living space and updating residence halls; partnering with a community health provider; and adding amenities including a game room and new performance space.


Program Overview

Curriculum: General Education

All Ïã¸ÛÁùºÏ²Ê¿ª½±Íø students must successfully complete a minimum of 123 semester credits to receive a Bachelor of Arts or a Bachelor of Science degree. You’ll need to complete 54-56 liberal arts core credits and complete community service hours. In addition, Electrical Engineering majors must complete 103 credits in the major.

First Year Curriculum: Enduring Questions

  • SEARCH Seminar-Enduring Questions or Honor Search-Enduring Questions (3 credits: SRH 101 or HNR 160)
  • COM 101 Composition & Research: Must earn a C or higher (3 credits)
  • THE 105 Foundations of Theology (3 credits)
  • PHI 105 Introduction to Philosophy (3 credits)


Mid-Level Liberal Arts Exploration Credits

  • Exploring the Natural World (6-8 credits)
    • Lab Science (Met in major)
    • Math (Met in related area)
  • Individuals & Communities (6 credits)
    • History or Political Science
    • PSY 101, HIS, POS, SOC, SSC, or ECON 3 (Met in related area)
  • Culture & Language (9 credits)
    • Communication (Not COM 100 or 101)
    • World Language – 2 courses in sequence
  • Creative Expressions (6 credits)
    • Literature (ENG)
    • Art, Music, or Theatre (Met with THR 244)


Ethical Leaders and Followers Credits

  • Theology or Philosophy (200-400 level)
  • Theology or Philosophy (Ethics/Morality @ 200 level) (Met with PHI 208)
Curriculum: Paths of Knowledge

Paths of Knowledge may count towards minor or Related Requirements, but not Mid-Level Arts Exploration requirements. Choose one path.

PATH 1: Interdisciplinary Study (IS)

Three courses, at least two from Liberal Arts disciplines, not the major, at the 200-400 level from the interdisciplinary minors of Women & Gender Studies, Digital Media, Community & Environmental Sustainability, Community Engagement, Cultural Studies, Leadership Studies or Pre-Law.

PATH 2: Multi-disciplinary Study (MS)

Three courses, at least two from Liberal Arts disciplines, not the major, at the 200-400 level employing multiple disciplinary perspectives to explore the Enduring Questions in one of the following themes: Cultural & Global Studies, Imagination & Creativity, Peace & Conflict, Poverty & Wealth or Sustainability, Science & Technology.

PATH 3: In-depth Disciplinary Study (DS)

Three courses at the 200-400 level in one Liberal Arts discipline other than one’s major, guided by common ideas and methods of inquiry. Students choose from Art, Biology, Chemistry, Communication, Computer Science, Economics, English, History, Mathematics, Music, Philosophy, Political Science, Psychology, Sociology, Theology, Theatre or World Languages. This path may be used to give students a firm foundation in a discipline supporting their chosen major, or to pursue an interest in one of the Liberal Arts disciplines. 

Curriculum: Major Requirements

All Ïã¸ÛÁùºÏ²Ê¿ª½±Íø students must successfully complete a minimum of 123 semester credits to receive a Bachelor of Arts or a Bachelor of Science degree. You’ll need to complete 54-56 liberal arts core credits and complete community service hours. In addition, Electrical Engineering majors must complete 103 credits in the major. 

Required Engineering Courses (17 credits)

  • EGR 107: Engineering Lab Safety
  • EGR 110: Engineering Design I
  • ENG 201: Engineering Statics
  • EGR 206: Mechatronics (pre-requisite: EE 200)
  • EGR 210: Engineering Design II (pre-requisite: EGR 110)
  • EGR 480: Senior Capstone Design I (pre-requisites: EGR 210, EE 301, EE 331)
  • EGR 481: Senior Capstone Design II (pre-requisite: EGR 480)
  • EE 200: Circuits I w/Lab (pre-requisite: MAT 231; co-requisite: PHY 201) 
     

Electrical Engineering (33 credits)

  • EE 201: Circuits II (pre-requisite: EE 200; co-requisite: MAT 322)
  • EE 210: Digital Design w/Lab (pre-requisites: EE 201, MAT 231)
  • EE 300: Electronics I w/Lab (pre-requisites: 201, MAT 231, PHY 201)
  • EE 301: Electronics II (pre-requisites: EE 300, EE 201, MAT 232)
  • EE 311: Electromagnetism I (pre-requisites:  MAT 232, 322, and PHY 201)
  • EE 312: Electromagnetism II (pre-requisites: EE 311, MAT 232, PHY 201)
  • EE 331: Energy Storage Devices (pre-requisites: EE 201, EE 311, MAT 232)
  • EE 400: Communications (pre-requisites: EE 301, MAT 345)
  • EE 410: Advanced Materials & Systems (pre-requisites: EE 201, PHY 304)
  • EE 421: Control Systems (pre-requisites: EE 201, MAT 322, MAT 240) 
     

Related Requirements (44 credits)

  • CHE 104: General Chemistry I
  • CHE 110: General Chemistry I Lab
  • CS 115: Intro Object-Oriented Prog
  • MAT 230: Calculus I (pre-requisites: MAT 131 or satisfactory score on Math Placement test)
  • MAT 231: Calculus II (pre-requisite: MAT 230)
  • MAT 322: Differential Equations (pre-requisite: MAT 331)
  • MAT 332: Calculus III (pre-requisite: MAT 231) 
  • MAT 345: Applied Probability & Linear Methods (pre-requisites: MAT 230, CS 155)
  • PHI 208: Ethics & Technology
  • PSY 200: Physics I w/Lab (pre-requisite: MAT 230)
  • PSY 201: Physics II w/Lab (pre-requisite: PHY 200)
  • PHY 304: Modern Physics (pre-requisite: PHY 201)
  • THR 244: Computer Assisted Design
     

Major Electives (9 credits)

  • Select from EGR 311, or any IE or ME 300-400 level course
Experiential Learning Opportunities
  • Dive into real-world challenges: Engage in hands-on projects, industry problems, and a year-long design course, transforming ideas into solutions
  • Explore cutting-edge labs: Innovate in new technical labs and upcoming facilities, shaping the future of engineering education
  • Ignite creativity in our Maker Space: Craft prototypes with top-notch tools, fostering innovation in a vibrant environment for hands-on creation.
  • Master core skills: The Engineering programs are built on the Liberal Arts backbone of Ïã¸ÛÁùºÏ²Ê¿ª½±Íø. Develop the critical thinking and communication abilities that employers and graduate schools seek in their engineers.
  • Elevate your knowledge: Attend dynamic Lunch & Learn sessions with industry experts, research scholars, and career mentors, fostering professional growth.
Accreditation Statements
  • Ïã¸ÛÁùºÏ²Ê¿ª½±Íø is an accredited institution and a member of the . MSCHE is an institutional accrediting agency recognized by the U.S. Secretary of Education and the Council for Higher Education Accreditation.
Career Outlook

After earning your Bachelor of Science in Electrical Engineering, you can pursue a variety of careers, including:

  • Computer hardware engineer
  • Communications engineer
  • Controls engineer
  • Electronics materials engineer
  • Instrumentation engineer
  • Robotics and systems engineer
  • Semiconductor engineer
  • Technical sales engineer


According to the Bureau of Labor Statistics, careers for electrical engineers are expected to grow by 5 percent between 2022 and 2032, much faster than average for all occupations. The median annual salary is $104,610.


Get to Know Your Faculty

For more information about Ïã¸ÛÁùºÏ²Ê¿ª½±Íø’s Electrical Engineering program contact the Admissions Office at 610-796-8269 or admissions@alvernia.edu. Or reach out directly to Director of John R. Post School of Engineering Director Joseph Mahoney at 484-254-2135 or joseph.mahoney@alvernia.edu.

Salem Elsaiah

Salem Elsaiah

Assistant Professor, Electrical Engineering

Engineering

Joseph Mahoney

Joseph Mahoney, Ph.D.

Director of John R. Post School of Engineering, Associate Professor of Mechanical Engineering

Engineering

484-254-2135
  • Faculty
Farah Mneimneh 2024

Farah Mneimneh

Assistant Professor of Mechanical Engineering

Engineering

610-796-5442
  • Faculty