Online Engineering
Schools and Degrees


In today’s world, technology generates solutions and innovations in every major market. An enormous demand exists for top-notch, bold engineers and the engineering technicians who help bring their designs to fruition. Increasingly, thought leaders, sales people in the technology sectors across all industries, and even entrepreneurs need at least some relevant engineering knowledge in addition to business acumen. Ambitious engineering students have a lot of career options. Beginning an engineering degree program can lead to a number of questions regarding degree levels and specializations, online options, program details, career paths and more. This guide to engineering schools and programs has been created to inform students, current and prospective, about what to expect in engineering programs, how to pursue a degree and what may lie beyond graduation.

Online Engineering Colleges

153 results
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Degree level
Student Population
School Type
School Tuition Acceptance Rate Student Population School Type see Programs

University of Central Florida

Orlando, Florida Public
49% 70,248 Public

University of Minnesota-Twin Cities

Minneapolis, Minnesota Public
44% 64,202 Public

Ohio State University-Main Campus

Columbus, Ohio Public
56% 62,681 Public

University of Florida

Gainesville, Florida Public
47% 56,642 Public

Texas A & M University-College Station

College Station, Texas Public
69% 56,476 Public

Arizona State University

Tempe, Arizona Public
80% 53,901 Public
45% 49,451 Public

Pennsylvania State University-Main Campus

University Park, Pennsylvania Public
54% 48,861 Public

University of Illinois at Urbana-Champaign

Champaign, Illinois Public
62% 47,693 Public
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Engineering Degrees

Engineering is a vast academic discipline, and students majoring in this course of study have many specialties to choose from. It is possible for a student to earn an associate degree in general engineering studies, then move on to a bachelor’s degree in software engineering, only to follow that with a master’s degree in electrical engineering and computer science.

Some basic engineering principles may carry throughout the diverse specialties. However, there is enough differentiation that students should find a suitable focus aimed at one of the discipline’s many branches. Associate degrees in engineering may concentrate on technical courses with a smaller ratio of general foundational coursework than in four-year degree programs. Bachelor’s degrees extend from this foundation, requiring students to complete a broader core curriculum with basics like calculus, differential equations, physics, basic engineering, chemistry and computers and programming. Graduate students tend to focus heavily on one area of engineering.

Students face important decisions when enrolling in an engineering program, and they need to determine the qualifications required for different professional paths. Associate degrees in engineering can provide a starting place for graduates interested in technician-level positions. In contrast, a bachelor’s degree is the usual prerequisite for engineering roles in specialties ranging from agriculture to nuclear energy. In addition to educational qualifications, practical experience is valued in engineering, and prospective students can ask colleges about the possibility of working in the field through internships or cooperative programs.

Online Engineering School Degrees

Learning via the Internet seems to make philosophical sense for studying engineering. After all, distance learning is a byproduct of engineering achievement in online communications and networking. And with the advanced online learning management systems available today, testing and class participation functions as well as calculation-heavy engineering assignments can be executed on a mass scale without sacrificing one-on-one attention.

Program Highlight: Online Bachelor’s Degree in Engineering

An online bachelor’s in engineering is a broad interdisciplinary degree that can prepare students for careers in a wide variety of fields including electrical or mechanical engineering, decision analysis, project management, management science, and risk management. Programs are usually offered fully online, allowing busy students and professionals the flexibility to take courses at their convenience. Students access course lectures and reading material through email and a course management system such as Blackboard. Programs are about 120 credit hours and students can complete a bachelor’s degree in four to five years, if they are attending full time. In addition to required classes such as English and mathematics, students take several courses that cover the fundamentals of science and engineering. Students may also choose from a variety of electives in specific engineering disciplines, such as civil, electrical, or mechanical, or in non-engineering fields such as law, medicine, business, or entrepreneurship.

Online Engineering Degrees

Associate degree programs in engineering may share elements of the curriculum with their bachelor’s degree counterparts, as both load up on math and science. After mastering the basics, students may choose courses reflecting a specific academic emphasis. Associate degrees typically offer a firm grasp of core engineering coursework, whether students intend to transfer their credits toward a bachelor’s degree for continued studies or they plan to enter the workforce, often in an introductory-level position. Below are a few common subjects offered in an associate degree program in engineering:

COURSE NAME overview
Calculus with Analytic Geometry A study of calculus and its application in real world engineering scenarios.
Differential Equations Expressing and modeling physics and engineering problems through equations with one or more variables.
Electricity & Magnetism A review of the four Maxwell Equations and the Lorentz Equation, introducing basic principles of light, heat, radiation, sound and magnetism.
Introduction to Engineering Primer on basic engineering concepts underpinning chemical, mechanical, electrical and civil engineering.
Materials Engineering A study of matter and an exploration into its molecular nature for use in applications in built structures and other uses.

Online Bachelor’s Degrees in Engineering

The first few years of Bachelor of Science degrees in this discipline usually cover basic engineering principles that are commonly found in most associate programs, while taking the specialty focus further. Advanced coursework in baccalaureate programs reflects the engineering specialty chosen. For instance, chemical engineering majors almost certainly take elementary through advanced levels of organic chemistry – easily adding up to four courses alone. The following courses illustrate some of the subjects that students well into their engineering majors may take.

COURSE NAME overview
Heat Transfer Study of heat movement and motion: conduction, convection and radiation and comparisons with thermodynamics.
Basics of Fuel Cells Fuel cell construction, efficiency and chemistry. Examination of fuel cell application in vehicles.
Advanced Organic Chemistry Studying structure and theory of organic reaction, molecular orbital theory, reaction effects, isotope effects, carbine and free radicals.
Biomanufacturing and Biosafety Understanding biomanufacturing engineering work namely with mammalian cell cultures along with the surrounding regulatory landscape.
Optoelectronics A study of optoelectronics in commercial and communication applications, including LEDs and lasers.
Nuclear Power Engineering Exploring nuclear reaction, fission and fusion, radiation doses, radioactivity and nuclear power.
Operating Systems Understanding operating system design, data structures, algorithms and systems programming.

Online Master’s Degrees in Engineering

Master’s programs in engineering are typically one to two years long — longer if attended part-time. Potential degrees include a research-focused Master of Science in Engineering (M.S.) or a more professionally focused Master of Engineering (M.Eng) degree. M.Eng coursework is designed for graduates looking to enter engineering management or applied engineering careers, seeking roles as executive manager, team leader, technical supervisor or plant manager. Most notably, M.Eng degrees may not entail writing a thesis, while M.S. programs usually require one. M.S. studies contain more research-heavy coursework that often presages the student’s eventual progression toward a PhD program.

Whether it’s an M.S. or an M.Eng, there is an engineering grad program to fit the needs of most students and their post-graduate goals. The following courses are a sample of those that students may take whether pursuing an M.S. or an M.Eng. This sample list does not demonstrate any particular academic track or engineering master’s degree focus.

Numerical Linear Algebra An overview of matrix computations, numerical solutions of linear equations, direct methods, iterative methods and least squares. A review of their applications in industry.
Control Design Techniques Examination of root-locus and frequency response techniques for control system analysis. Studies on how to build control systems.
Product Design and Development Design and developing of products from prototype to launch phase. Covers each phase of product development, e.g. planning, concept, product architecture, industrial and manufacturing design.
Advanced Biomedical Engineering Analysis of Biomedical Systems A quantitative exploration into biomedical engineering issues through varied applications on the bodily, organic, tissue, cellular and molecular levels.
Applied Solid State: Physics of Renewable Energy A review of solid state physics with an examination of the materials and devices often found in industrial applications and an exploration into their limits.
Applied Electrodynamics Pulse propagation in dispersive media, wave propagation in conductors and plasmas, scattering of radiation, waveguides and transmission lines.

Online Doctorate Degrees in Engineering

Doctorate degrees in engineering require their recipients to endure some of the most rigorous coursework and research demanded of any graduate student. Programs can typically be completed in four to five years, depending on students’ other commitments. PhD candidates can expect a core curriculum with extensive research and study in one of many areas pertaining to their dissertation.

While engineering PhD programs may welcome candidates with undergraduate majors or careers in areas outside the focus of the doctorate, many programs tend to favor students with proximate experience to the PhD emphasis. Certain engineering programs explicitly list undergraduate majors or work experience that prospective PhD students could pursue to improve their chances of acceptance.

Identifying the Best Engineering Schools

Top math and science high school and returning students who have definitive career goals may choose a program based on a number of factors — their own short- and long-term education goals, the school’s course offerings, its reputation, the stature of its faculty members, and its job placement track record, among others. Primary factors in the engineering college selection process include the following:


The Council for Higher Education Accreditation (CHEA) recognizes the following two organizations as accrediting bodies for engineering and engineering technology programs:

ABET. Since January 2003, CHEA has recognized ABET’s scope of accreditation regarding baccalaureate and master’s programs in engineering; engineering technology programs at the associates and bachelors level; computing programs at the bachelor’s level; and applied science for associates, bachelors and master’s degree programs in the U.S. and abroad.

Association of Technology, Management, and Applied Engineering (ATMAE). CHEA recognizes ATMAE as an accrediting body for U.S. national and regional programs for the associates, baccalaureate, and master’s degree levels in technology, applied technology, engineering technology, and technology-related disciplines.

Tuition and Fees

If tuition is a serious concern, state schools may provide an affordable choice for students who are willing to limit their choice of schools to the university system of their home state. Private colleges and universities are typically at the higher end of the tuition scale.

Engineering majors should know, however, that the amount of salary earned upon graduation may provide a good return on investment when weighed against tuition costs. These costs, while certainly an important consideration, should not necessarily deter an excellent student with a serious chance at acceptance from any of the top engineering colleges, particularly if she or he plans to pursue a career in one of the engineering fields with a better-than-average employment outlook over the next decade.


Top engineering schools attract and retain faculty who have won awards, not just Nobel Laureates but “early career faculty” — those with promising academic careers ahead, who have garnered awards from organizations such as the National Science Foundation.

Corporate Affiliations

After all is said and done, the objective of attending the best engineering colleges is to embark on a promising career after graduation or to be accepted into a good graduate or doctoral program with opportunities for research, publication and/or visibility. Schools that are affiliated with top engineering firms may provide the possibility of internships and employment upon graduation.

Top 50 On-Campus and Online Engineering Schools

College Rank College Name #Programs Tuition Total Enrollment City State
1 Northwestern University68$41,592 23,634 Evanston Illinois
2 Missouri University of Science and Technology59$7,848 8,086 Rolla Missouri
3 North Carolina State University at Raleigh52$5,153 40,165 Raleigh North Carolina
4 Colorado School of Mines52$12,584 6,709 Golden Colorado
5 University of Southern California52$42,162 40,515 Los Angeles California
6 University of Arizona51$8,364 42,779 Tucson Arizona
7 Pennsylvania State University-Main Campus51$15,124 49,025 University Park Pennsylvania
8 Stanford University50$40,050 22,026 Stanford California
9 University of Wisconsin-Madison49$8,592 46,756 Madison Wisconsin
10 Virginia Polytechnic Institute and State University49$8,852 33,248 Blacksburg Virginia
11 University of Michigan-Ann Arbor48$12,440 44,453 Ann Arbor Michigan
12 Stevens Institute of Technology48$40,300 7,208 Hoboken New Jersey
13 Columbia University47#N/A 27,257 New York New York
14 Michigan Technological University47$13,095 6,945 Houghton Michigan
15 Purdue University-Main Campus46$8,893 44,644 West Lafayette Indiana
16 University of Minnesota-Twin Cities46$11,650 64,349 Minneapolis Minnesota
17 Carnegie Mellon University45$43,160 12,175 Pittsburgh Pennsylvania
18 University of Colorado Boulder44$7,672 36,946 Boulder Colorado
19 University of Illinois at Urbana-Champaign43$11,847 47,146 Champaign Illinois
20 Texas A & M University-College Station42$5,297 51,417 College Station Texas
21 Colorado State University-Fort Collins42$6,307 33,712 Fort Collins Colorado
22 Kansas State University42$6,936 24,378 Manhattan Kansas
23 University of Cincinnati-Main Campus42$8,805 38,041 Cincinnati Ohio
24 University of California-San Diego42$11,220 31,089 La Jolla California
25 Arizona State University41$9,208 79,274 Tempe Arizona
26 Rensselaer Polytechnic Institute41$41,600 6,744 Troy New York
27 Johns Hopkins University41$42,280 25,376 Baltimore Maryland
28 University of Akron Main Campus41$8,004 32,183 Akron Ohio
29 University of Massachusetts-Lowell40$1,454 18,354 Lowell Massachusetts
30 University of Florida40$4,060 58,082 Gainesville Florida
31 The University of Tennessee40$7,224 32,981 Knoxville Tennessee
32 Auburn University38$7,296 26,840 Auburn University Alabama
33 Ohio State University-Main Campus38$8,856 64,425 Columbus Ohio
34 Worcester Polytechnic Institute38$39,450 5,724 Worcester Massachusetts
35 University of Oklahoma Norman Campus37$3,849 30,642 Norman Oklahoma
36 Oregon State University37$6,228 28,188 Corvallis Oregon
37 Iowa State University37$6,408 31,501 Ames Iowa
38 University of Toledo37$7,598 25,597 Toledo Ohio
39 Illinois Institute of Technology37$33,100 8,654 Chicago Illinois
40 Lehigh University37$40,660 7,533 Bethlehem Pennsylvania
41 Wayne State University36$9,381 36,749 Detroit Michigan
42 New Jersey Institute of Technology36$11,758 10,622 Newark New Jersey
43 Bradley University36$26,400 6,206 Peoria Illinois
44 Vanderbilt University36$40,320 13,500 Nashville Tennessee
45 Georgia Institute of Technology-Main Campus35$6,676 23,017 Atlanta Georgia
46 Clemson University35$11,524 22,338 Clemson South Carolina
47 California Institute of Technology35$36,387 2,274 Pasadena California
48 Northeastern University35$37,840 36,462 Boston Massachusetts
49 Cornell University35$41,325 21,437 Ithaca New York
50 Massachusetts Institute of Technology34$40,460 11,271 Cambridge Massachusetts

What Can You Do with an Online Engineering Degree

Engineering careers branch out into dozens of professional extensions and move in step with global demand by employers for graduates majoring in science, technology, engineering and mathematics or STEM subjects. Civil, industrial, electrical, mechanical, mineral/geological and chemical engineering are just a few the opportunities for challenging and rewarding work.

Most industries are incorporating increasingly complex technological solutions to manage their operations and growth, and engineering lies at the core of creating and implementing these innovations. Engineers are the ones building that new sales database software and that sustainable plastics replacement. They deliver the technology and discoveries that support so many industries, from aerospace, transportation, computer science, medicine, construction, telecommunications and energy to finance. Below are some types of engineers that illustrate the expansive range of potential careers.

Featured Careers

  • Aerospace Engineers

    Aerospace engineers design and test aircraft, missiles, satellites, spacecraft and other prototypes for use in the aerospace industry. They also conduct research, lead research teams, direct the implementation of new technology and work in an advisory role, usually for government agencies or large defense or private space companies. Aerospace engineers often require security clearances to engage in research, design and development of classified technology.

    Median Salary: $103,720

    Median Hourly: $49.87

    Est. Growth: 7.3%

    No. Employed 80,420

    Minimum Education: Bachelor’s

  • Agricultural Engineers

    Agricultural engineers are employed in a range of fields related to biological harvesting, including farming, aquaculture and forestry. They can work to improve methods of growing or harvesting food, improving livestock maintenance, or protecting or maintaining fish stocks. Agricultural engineers can work in a variety of settings. For example, they may conduct research in offices or laboratories or implement new technology and research in the field.

    Median Salary: $74,000

    Median Hourly: $35.58

    Est. Growth: 4.8%

    No. Employed: 2,470

    Minimum Education: Bachelor’s

  • Biomedical Engineers

    Biomedical engineers work toward the improvement of patient care and medicine through the analysis, research and development of products and systems, such as medical devices, instruments and software. They can work for drug companies, hospitals, research institutions, universities and government organizations to test and evaluate the safety, efficiency and effectiveness of various medical devices and equipment. They often work in close conjunction with scientists, doctors, researchers and administrators to bring new devices to market, test new instruments or to improve existing medical materials.

    Median Salary: $86,960

    Median Hourly: $41.81

    Est. Growth: 26.6%

    No. Employed: 18,810

    Minimum Education: Bachelor’s

  • Chemical Engineers

    Chemical engineers use the principles of chemistry, physics, biology and math to address problems related to food, fuel, medicine, agriculture and many other applications. They work to improve both manufacturing techniques and product design for industrial and medical innovations, from the testing phrase to implementation. They can work in a supporting role for virtually every industry, from developing new plastics for manufacturers to creating new compounds for green fuels.

    Median Salary: $94,350

    Median Hourly: $45.36

    Est. Growth: 4.5%

    No. Employed: 32,190

    Minimum Education: Bachelor’s

  • Civil Engineers

    Civil engineers work on large construction and infrastructure projects such as the building of bridges, airports, dams, roads, tunnels and water-treatment facilities. They are hired to design, construct, monitor, supervise, plan and implement these large-scale projects. Although much of what they do is in support of public-works projects, they can also be hired by private entities for the creation of similar commercial projects.

    Median Salary: $79,340

    Median Hourly: $38.14

    Est. Growth: 19.7%

    No. Employed: 258,100

    Minimum Education: Bachelor’s

  • Electrical Engineers

    Electrical engineers work to design, develop, test, manufacture and implement new electrical equipment, such as navigation and radar systems, power-generation equipment, motors and communications systems. Electrical engineers work for a wide range of both public and private entities to develop and test emerging technology, or to supervise the application of that technology. They also work as consultants and advisers on a range of projects.

    Median Salary: $87,920

    Median Hourly: $42.27

    Est. Growth: 4.7%

    No. Employed: 160,560

    Minimum Education: Bachelor’s

  • Environmental Engineers

    Environmental engineers work to improve processes related to recycling, waste disposal, public health and pollution of the air and water. They conduct studies to assess various environmental issues and use the data to develop and implement new technology to treat or contain problems. They develop solutions using knowledge of soil and water science, biology, chemistry and engineering, and often collaborate with environmental scientists, planners and other experts involved with environmental problems and sustainability.

    Median Salary: $80,890

    Median Hourly: $38.89

    Est. Growth: 15.3%

    No. Employed: 50,850

    Minimum Education: Bachelor’s

  • Industrial Engineers

    Industrial engineers work to reduce waste in production and manufacturing. Their job is to improve efficiency regarding employees, machines, materials, information and energy in the creation and distribution of products and services. Industrial engineers work both in the office and at the sites where their findings will be implemented. They can work for individual entities or farm their services out to several corporations.

    Median Salary: $78,860

    Median Hourly: $37.92

    Est. Growth: 4.5%

    No. Employed: 220,130

    Minimum Education: Bachelor’s

  • Nuclear Engineers

    Nuclear engineers work with nuclear energy and radiation in a variety of ways. Many work to find new uses for radioactive materials in the industrial and medical fields, for example, creating new medical treatments. Some research and develop instruments, machines, systems, or processes for harnessing nuclear power. Others work as safety monitors for nuclear facilities.

    Median Salary: $104,270

    Median Hourly: $50.13

    Est. Growth: 9.3%

    No. Employed: 19,930

    Minimum Education: Bachelor’s

  • Petroleum Engineers

    The main tasks of a petroleum engineer are designing, developing, and/or improving methods for extracting oil and gas from underground deposits. These engineers must have an understanding of both mechanics and natural resources. While most of their work is done in an office or laboratory, time is also spent at drilling sites.

    Median Salary: $130,280

    Median Hourly: $62.64

    Est. Growth: 25.5%

    No. Employed: 36,410

    Minimum Education: Bachelor’s