CCNY Electrical Engineering Requirements

Last Updated on January 23, 2022

The City College of New York (also known as CCNY, CUNY, and The Bronx) is a public senior college of the City University of New York, located in New York City. Founded in 1847 as the Free Academy, it is the oldest of the City University’s five institutions. It has three campuses: one in Manhattan and two in The Bronx.

Some schools’ programs are dependent on the number of years since you graduated high school. This is true for both community colleges and universities. While the details change from institution to institution, you will generally have to have a certain amount of previous education before being admitted. As an example, many institutions will look for two or more years of prerequisite education in your major area. For example, if you want to enroll in computer science at City College of New York (CCNY) as an undeclared student and then decide you want to be an electrical engineer, that would be very difficult.

All programs available to New York City residents at all of the undergraduate schools in the CUNY system have the same general requirements: completion of a high school diploma or its recognized equivalent; and stringent admission test scores. However, specific requirements vary by major.

Students who wish to study abroad should make sure they follow the application process thoroughly for ccny electrical engineering requirements, as most countries that are underdeveloped will not have as great of an issue.

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The Grove School of Engineering at CUNY–City College (Grove) has an application deadline of May 1. The application fee is $75 for U.S. residents and $75 for international students. Its tuition is full-time: $12,970 per year (in-state); full-time: $17,010 per year (out-of-state); part-time: $550 per credit (in-state); and part-time: $945 per credit (out-of-state). The 2020 Ph.D. student-faculty ratio is 1.4:1. The Grove School of Engineering at CUNY–City College (Grove) has 110 full-time faculty on staff.

ccny electrical engineering curriculum

Electrical Engineering is a diverse discipline encompassing some of the smallest man-made objects, transistors for computer chips, as well as communication systems that span the earth and reach out into intergalactic space. The invention of the transistor 50 years ago touched off a technological revolution that continues unabated today, including the development of lasers, fiber optics, microcomputers, satellite communications, control systems, and increasingly sophisticated signal processing algorithms.

The faculty of the Grove School’s Department enhance their teaching activities with a number of active research programs in such areas as digital signal processing, computer engineering, optical and telecommunications, controls, remote sensing and photonics, and advanced students participate in these research efforts.

Students pursue professional engineering degrees at the undergraduate, masters and doctoral levels.

The Grove School of Engineering

Electrical & Computer Engineering

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  • Science, Engineering, & Mathematics
  • Electrical & Computer Engineering

Earn a Bachelor of Science in Electrical Engineering through our ABET-accredited program. Grove City College’s Department of Electrical Engineering lays a solid foundation in engineering while giving you access to expert faculty mentors and freedom to find your unique place in the field as an inspired engineer.

Department Overview

Harness the power of inspired engineering.

Do you envision an impactful career with Microsoft, NASA, or Lockheed Martin? Maybe you dream of launching a startup like Gecko Robotics, or bringing your engineering skills to the mission field. No matter your calling, our four-year ABET-accredited program prepares you to become an effective and ethical Christian leader in the engineering world. You’ll gain the well-rounded skillset you need to thrive professionally and socially. You’ll also grow to approach engineering as a redemptive means of glorifying God—the ultimate source of inspiration to creatively solve problems and connect others with life-enriching solutions.

Solid foundation, niche exploration.

Our highly structured program ensures you get a broad, thorough foundation in engineering with freedom to personalize your experience through concentrations, optional minors, and the senior capstone design project. Implemented in real-world situations, team projects span the spectrum and allow you to develop your passions. Whether you end up in research, design and development, management, field service, or education, you will be equipped to succeed. You’ll also be well prepared to pass the Fundamentals of Engineering and Professional Engineering exams (critical for many engineering positions). Additionally, our Humanities Core will broaden your intellect, strengthen your faith, and cultivate excellent critical thinking and communication skills—key to obtaining leadership positions in the field.

Engage with faculty, gain real-world wisdom.

Our faculty serve as intentional guides and mentors who care about you personally. Freshman year your advisor would be the department chair himself—a testament to the great care our faculty extend to students from day one. With decades of diverse professional experience at places like IBM and General Electric, faculty are grounded in truth, live what they teach, and assist you individually to pursue your calling with conviction. They will challenge and encourage you to deal with mistakes constructively and gain resilience, and they’ll help you network with successful alumni, professionals, and companies around the country.

Professional development.

Beyond a dynamic hands-on learning environment, you will also benefit from countless internship opportunities obtainable through on-campus recruiting visits and our annual career fair that brings in over 160 eager recruiters. You can also pursue research projects guided by faculty surrounding topics like hearing-aides, wind turbine blade dynamics, electrohydrodynamic drying, and mobile robotics. Established as the world’s leading resource for robotics, Pittsburgh is only an hour from campus—creating excellent career opportunities during college and after graduation in conjunction with our robotics minor. Additionally, you can invest in community and gain leadership experience through various student-led campus organizations like the Institute of Electrical and Electronic Engineers.

Amazing outcomes.

With a 95% career outcomes rate, you will be ready to land highly competitive positions or entry into prestigious graduate or professional programs at schools such as MIT, Virginia Tech, and Carnegie Mellon, among others. If you’re like nearly 100% of our students, you’ll pass the Fundamentals of Engineering exam the first time you take it. In addition, you will stand out with an exceptional work ethic, integrity, and knowledge—qualities employers consistently notice in our grads. And, you will have the opportunity to build your career with big names like Motorola, FirstEnergy, Honda, and more. 

CUNY–City College (Grove) 2022 Rankings

CUNY–City College (Grove) is ranked No. 127 (tie) in Best Engineering Schools. Schools are ranked according to their performance across a set of widely accepted indicators of excellence. 

Engineering School Program Rankings

  • #127inBest Engineering Schools (tie)

Engineering School Specialty Rankings

  • inBiomedical Engineering / Bioengineering
  • inChemical Engineering
  • inCivil Engineering
  • inElectrical / Electronic / Communications Engineering
  • inMechanical Engineering

Subscribe to U.S. News Engineering School Compass

See how this school scored on the key indicators used in the rankings.

Other rankings at this school: Colleges, Global Universities

M.E. in Electrical Engineering

Change Course

About this course
Duration1.5-2 Years
LevelMasters Program

Course Description

  • Each student must complete at least 30 credits in the program
  • The students need to choose four courses from one of the following concentrations:
    • Computer Engineering
    • Systems Engineering
    • Telecommunications Engineering
    • Photonics Engineering
    • Electronics/Communication
  • The program provides qualified graduates of accredited undergraduate engineering and computer science programs with an opportunity to continue their professional training at an advanced level

RankingUniversity Rankings#401-500Universities Rankings

– ARWU (Shanghai Ranking) 2020#653Global Universities

– US News & World Report 2021#176National University Ranking

– US News & World Report 2021Course RankingsEngineering Courses#97Electrical Engineering PG

– US News & World Report 2021

Fees & ExpensesUSDINR1st year tuition fees

Fees componentsAmount
Tuition & feesINR 10,66,887

Other expenses in 1st year

Fees componentsAmount
Hostel & MealsINR 9,22,092
InsuranceINR 37,792
Consolidated FeeINR 2,197
Technology FeeINR 18,310
Student Senate FeeINR 220
Maintenance of Matriculation FeeINR 54,198
TotalINR 10,34,809

Calculated at the exchange rate of 1 USD = INR 73.24|

Tuition & expenses were last updated on 2ⁿᵈ September 2019Entry Requirements

Entry requirements for this course
Class 12thNo specific cutoff mentioned
BachelorsNo specific cutoff mentionedApplicants must have completed an undergraduate degree in Bachelor of Engineering or equivalent earning a “B” grade average in the major field
ExamsTOEFL : 73IELTS : 6

EE Undergraduate Graduation Requirements

Home/The Grove School of Engineering/Electrical Engineering/EE Undergraduate Graduation Requirements

REQUIRED COURSES:MATHEMATICSMATH20100Calculus I3 cr.RMATH20200Calculus II3 cr.RMATH20300Calculus III4 cr.RMATH39100Diff. Equations3 cr.RMATH39200Linear Algebra and Vector Analysis3 cr.RSCIENCESCHEM10301General Chemistry I4 cr.RCSC10200Intro to Computing3 cr.RPHYS20701General Physics I4 cr.RPHYS20801General Physics II4 cr.RPHYS32300Quantum Mechanics for Engineers3 cr.RENGINEERINGENGR10100Engineering Design I1 cr.RENGR10300Analysis Tools for Engineers2 cr.RENGR20400Electrical Circuits3 cr.RENGR27600Engineering Economics3 cr.RELECTRICAL ENGINEERINGEE20500Linear Systems I3 cr.REE21000Switching Systems3 cr.REE22100EE Lab I1 cr.REE24100Electronics I3 cr.REE25900Programming for EE4 cr.REE30600Linear Systems II3 cr.REE31100Probability and Statistics3 cr.REE31200Communication Theory3 cr.REE32200EE Lab II1 cr.REE33000Electromagnetics3 cr.REE33900Semiconductor Materials and Devices3 cr.REE34400Digital Computer Systems3 cr.REE42500Digital Computer Lab1 cr.REE59866Senior Design I3 cr.REE59867Senior Design II3 cr.RENGLISHENGL 11000 Freshman Composition                                3 cr.RENGL21007 Writing for Engineers3 cr.RSub-Total Required Courses:                                                                          89 cr.   –ELECTIVE COURSES:
All Electrical Engineering major students must complete the credit requirements from the A, B,  and C Electives lists:
A. Lecture Electives
All EE students, in consultation with their faculty advisor, must select 6 courses of Lecture Electives, at least 3 courses of which must be Electrical Engineering courses.
Electrical Engineering
EE 33300: Antennas & Fiber-Optics3 cr.E
EE 34200: Electronics II3 cr.E
EE 35700: Electric Power Engineering3 cr.E
EE 37100: Control & Feedback Systems3 cr.E
EE 43800: Management Concepts for Engineering3 cr.E
EE 44100: Solid State Devices3 cr.E
EE 45000: Microwave Networks3 cr.E
EE 45100: Communication Electronics3 cr.E
EE 45200: Fiber Optic Communications3 cr.E
EE 45300: Digital Signal Processing3 cr.E
EE 45400: Physical Electronics3 cr.E
EE 45500: Elements of Power Systems3 cr.E
EE 45600: Elements of Control Theory3 cr.E
EE 45700: Digital Integrated Circuits3 cr.E
EE 45800: Introduction to Lasers3 cr.E
EE 45900: Microprocessors3 cr.E
EE 46000: Computer Communication Systems3 cr.E
EE 46200: Photonic Engineering3 cr.E
EE 46300: Wireless Communications3 cr.E
EE 46400: VLSI Design3 cr.E
EE 47100: Introduction to Digital Image Processing3 cr.E
EE 51000: Independent Study (departmental approval required)3 cr.E
Computer Science
CSc 31800: Internet Programming3 cr.E
CSc 34200: Computer Organization3 cr.E
Math 32800: Numerical Analysis**3 cr.E
Phys 45200: Optics3 cr.E
ENGR I0600: Applied Algebra (GPA 2.75 or better required)3 cr.E
ENGR I1100: Engineering Analysis (GPA 2.75 or better required)3 cr.E
ENGR I1200: Complex Variables (GPA 2.75 or better required)3 cr.E
ENGR 23000: Thermodynamics3 cr.E
ENGR 30000: Social Impact of Biomedical Technology3 cr.E
ENGR 30100: Introduction to Satellite Remote Sensing & Imaging3 cr.E
Biomedical Engineering
BME 50100: Cell and Tissue Mechanics3 cr.E
BME 50200: Cell and Tissue Transport3 cr.E
BME 50300: Cell and Tissue Biomaterial Interactions3 cr.E
BME 50500 Image and Signal Processing in Biomedicine3 cr.E
Chem 10401: General Chemistry II (minimum grade of C required)4 cr.E
   ** Credit can not be received for both Math 32800 and CSc 44000.
Sub-Total Lecture Elective Credits:                                                        18 –19 cr.
B. Advanced Laboratory Electives
Two of the following courses:
EE 32300: Lab III1 cr.E
EE 42100: Local Area Network Laboratory1 cr.E
EE 42200: Analog Communication Laboratory1 cr.E
EE 42300: Microwave Laboratory1 cr.E
EE 42600: Control Laboratory1 cr.E
EE 42700: Digital Systems Laboratory1 cr.E
EE 42800: Photonics Engineering Laboratory1 cr.E
EE 42900: Solid State1 cr.E
CSc 34300: Computer Systems Design1 cr.E
Sub-Total Advanced Laboratory Electives Credits:2 cr.
Note for Transfer Students: Any transfer student exempted from taking Engr 101 must have an additional Advanced Laboratory Elective credit.
C. Restricted Electives
Please note: Although the following courses may be selected for Lecture Elective credits, they cannot be selected as both Lecture Electives credits and Restricted Electives credits at the same time.
Two of the following courses:EE 33300: Antennas & Fiber Optics3 cr.EEE 34200: Electronics II3 cr.EEE 37100: Control & Feedback Systems3 cr.EEE 44100: Solid State Devices3 cr.ESub-Total Restricted Electives Credits:6 cr. LIBERAL ARTS REQUIREMENTSEE Students must take five approved liberal arts courses:LIBERAL ARTS PER PATHWAYS SCHEDULE  LA100-LEVELCreative Expression  3 cr.RLA100-LEVELWorld Cultures and Global Issues3 cr.RLA100-LEVELIndividual and Society3 cr.RLA100-LEVELUS Experience in Its Diversity3 cr.RLA200-LEVELSee List of Approved Classes3 cr.RSub-Total Liberal Arts Credits:    15 cr.  GRAND TOTAL CREDITS FOR EE MAJOR: 130 Credits
R – Required course
E – Elective course

Electrical Engineering Degree Map (B.E.)

This Degree Map is a semester-by-semester sample course planning guide to help students complete the degree requirements within four years. The sample schedule serves only as a general guide and is not a substitute for academic advisement. Students should consult an advisor before registering for courses each semester. This map is in effect for the current academic year. Students should follow major requirements which were in effect the year they declared this major.   

To help students in making decisions about the career for which they are preparing, City College provides and encourages students to use the following resources:

First Year Fall

Requirements List

Course NumberTitleCreditsSee More
MATH 20100Calculus I4
CHEM 10301General Chemistry I4
ENGL 11000Freshman Composition3
ENGR 10100Engineering Design I1
Two Liberal Arts courses satisfying Pathway requirements6

First Year Spring

Requirements List

Course NumberTitleCreditsSee More
MATH 21200Calculus II with Introduction to Multivariable Functions4
PHYS 20700University Physics I4
CSC 10200Introduction for Computing3
ENGL 21007Writing for Engineering3
One Liberal Arts course satisfying Pathway requirements3

Second Year Fall

Third Semester (16 credits)

Course NumberTitleCreditsSee More
MATH 21300Calculus III with Vector Analysis4
PHYS 20800University Physics II4
ENGR 20400Electrical Circuits3
EE 21000Switching Systems3
ENGR 10300Computer-Aided Analysis Tools for Engineers2

Second Year Spring

Requirements List

Course NumberTitleCreditsSee More
MATH 39100Methods of Differential Equations3
MATH 34600Elements of Linear Algebra3
EE 20500Linear Systems Analysis I3
EE 22100Electrical Engineering Laboratory I1
EE 24100Electronics I3
EE 31100Probability and Statistics3

Third Year Fall

Requirements List

Course NumberTitleCreditsSee More
EE 30600Linear Systems Analysis II3
EE 32200Electrical Engineering Laboratory II1
EE 33000Electromagnetics3
EEEE Restricted Elective3
EE 25900Programming for Electrical Engineering4
PHYS 32300Quantum Mechanics for Engineers3

Third Year Spring

Requirements List

Course NumberTitleCreditsSee More
EE 31200Communication Theory3
EE 42500Computer Engineering Laboratory1
EE 34400Digital Computer Systems3
EE 33900Semiconductor Materials and Devices3
Two Lecture Elective courses6

Fourth Year Fall

Requirements List

Course NumberTitleCreditsSee More
EEEE Restricted Elective3
ENGR 27600Engineering Economics3
EEEE Lecture Elective3
One Liberal Arts course satisfying Pathway requirements3
General Education course3
EE 59866Seminar Design I for Electrical Engineering3

Fourth Year Spring

Requirements List

Course NumberTitleCreditsSee More
EE 59867Seminar Design II for Electrical Engineering3
Three Lecture Elective courses9
EETwo EE Advanced Laboratory Elective courses2

Total Credit Hours required for obtaining a B.E. degree: 132.

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