Engineering Schools With High Acceptance Rates

Last Updated on September 7, 2022 by Smile Ese

Searching for engineering schools with high acceptance rates can be a challenge. There are thousands of listed engineering programs online and they all have different acceptance rates to match. But this doesn’t mean you can’t find the right school for your personality and needs.

Collegelearners affords a plethora of information on best hands on engineering schools, best engineering schools, hardest engineering schools and so much more. Ensure you peruse through our catalogue for relevant information on similar topics.

Engineering Schools With High Acceptance Rates

1. Iowa State University

Acceptance Rate: 90.6%

Minimum CGPA: 3.68

A great engineering program is nothing without a true and consistent passion. A true desire to inspire future engineering leaders, pioneer groundbreaking research in addition to transforming technology to make a difference in the world.

Unlike other universities, Iowa University truly appreciates the diversity of humanity and believes in the power of united ideas.

Currently, their engineers are running serious tests on wind tunnels and computer simulations so as to understand how cables can basically support bridges.

Their educational culture and rich heritage don’t only make them one of the easiest engineering schools to get into but also one of the most amazing engineering schools.Start Program

2. University of Colorado

Acceptance Rate: 81.5%

Minimum CGPA: 2.7

The University of Colorado Boulder is the second biggest among seven schools and colleges at one of the nation’s top public research institutions.

As Colorado’s flagship university, CU Boulder possesses a range of undergraduate and graduate engineering programs.

Their vision is to be a recognized world leader for excellence and innovation in engineering research and education, with an emphasis on inclusive excellence, active learning and global society.

Basically, they have grown to generate new knowledge in engineering and related fields. Additionally, they empower students from different backgrounds to become reputable leaders so as to build a profitable society.

There are six college departments in their engineering faculty wherein students can pursue different programs. Indeed, they’re one of the easiest engineering schools to get into due to their high acceptance rate and mild requirements.Start Program

3. University of Delaware

Acceptance Rate: 66.4%

Minimum CGPA: 3.67 

For over 100 years, the College of Engineering at the University of Delaware has remained committed to producing excellent engineers.

The College of Engineering continues this proud culture of excellence in research, teaching and service which has attracted international recognition to both faculty and students.

U.S News has ranked them the 8th best chemical engineering school as well as the 46th best engineering school in the world. These figures tell a lot about their progress.

Currently, they have over 12,000 students pursuing different engineering programs in this school. Indeed, they continue to uphold high standards as they compete globally to be a highly renowned institute.Start Program

4. Virginia Tech

Acceptance Rate: 64.8%

Minimum CGPA: 4.14

Virginia Tech is basically the fifth largest producer of engineering graduates in the nation. For a long time, they’ve remained focused on solving problems in addition to conducting global research.

There are over 11,000 students studying different programs around its engineering discipline at both the graduate and undergraduate levels.

Every year, Virginia Tech has experienced a 20% increase in the number of applications for its engineering programs. And instead of rejecting students, they accept more.

So, when you consider the easiest engineering schools to get into, Virginia Tech fits the description.Start Program

5. Pennsylvania State University

Acceptance Rate: 56.5%

Minimum CGPA: 2.0

PennState College of Engineering seeks to provide solutions to diverse engineering problems which will help build a better future for everyone in society.

Currently, they have about 14 undergraduate majors, 55 graduate degree options. More so, they have over 12,000 students pursuing these programs in their 24 campuses.

This university has spent over $149 million in research using their quality research centres. This research has helped them build strong borders with other schools that have helped their exchange program.

As an engineering university, they keep digging deeper to produce astounding results in everything.Start Program

6. Ohio State University

Acceptance Rate: 52%

Minimum CGPA: 2.5 

Ohio State’s College of Engineering aims to build a learning culture that helps students to be valuable contributors to society using their technological, professional and interpersonal skills.

As a student in this faculty, you will thrive in an environment of new ideas and concepts that expand the understanding of science and engineering as well.

Essentially, you understand the competitiveness and living standards thereby making the correct contributions toward technology and creativity which in turn builds continuous improvement, a diverse workforce and lifelong learning.

The College of Engineering keeps creating new inventions across a range of applications and scientific disciplines. They’ve spent over $145 million in research as they bolster efforts to compete with the best of the best.Start Program

7. University of Minnesota

Acceptance Rate: 51.9%

Minimum CGPA: 3.2

The College of Science and Engineering remains committed to pioneering the vision, leadership, and intellectual capital that spurs societal progress.

Researchers at the College of Science and Engineering keep developing simpler ways and patterns of solving engineering problems in the world.
They basically achieve this by developing new forms of environment-friendly energy, designing new medical devices, improving digital and electronic technologies, and developing a strong national infrastructure.

The college has about 12 academic departments with a huge range of degree programs at the bachelor, master’s, and doctoral levels. Furthermore, they rank among the best engineering and science academic programs in the country.

Indeed when it comes to the easiest engineering schools to get into, the University of Minnesota College of Engineering gives you quality education for mild requirements.Start Program

8. Boston University

Acceptance Rate: 22.1%

Minimum CGPA: 3.0

Boston University remains one of the best graduate engineering schools as they seek to continually build and grow. Indeed, they’ve benefited greatly from their deep research.

There are about 12 different engineering course areas for students to study. These programs cut across the degree and non-degree programs. As much as they remain one of the easiest engineering schools to get into, they rank as a fantastic school as well.

hardest engineering schools

Below is a list of the top 10 hardest engineering courses in the World:

  • Electrical Engineering
  • Chemical Engineering
  • Computer Engineering
  • Aerospace Engineering
  • Biomedical Engineering
  • Nuclear Engineering
  • Robotics Engineering
  • Quantum Engineering
  • Nanotechnology Engineering or Nanoengineering
  • Mechatronics Engineering.

1. Electrical Engineering

Electrical engineering is a field of engineering concerned with the study, design, and application of equipment, devices, and systems that use electricity, electronics, and electromagnetism.

This major is considered one of the most difficult engineering majors because it requires a lot of abstract thinking.

Many of the processes involved in electrical engineering cannot be seen. Electrical engineers cannot see currents, wireless signals, electric fields, or magnetic fields.

To study electrical engineering, you will need a strong background in mathematics and physics. A bachelor’s degree in electrical engineering can be completed within 4 to 5 years.

After completing a degree in electrical engineering, you can pursue the following careers:

  • Electrical technician
  • Electrician
  • Test Engineer
  • Electrical Engineer
  • Control Engineer
  • Aerospace Engineer.

The following schools offer the best electrical engineering programs:

  • Massachusetts Institute of Technology, USA
  • Stanford University, USA
  • The University of California, Berkeley, USA
  • ETH Zurich, Switzerland
  • University of Cambridge, UK.

2. Chemical Engineering

Chemical engineering is concerned with the application of science to convert raw materials into valuable products, such as – food and drinks, drugs, fertilizers, energy, and fuel.

This engineering discipline is unarguably challenging because it is a combination of physics, chemistry, and mathematics. These subjects are difficult, even on their own.

An undergraduate-level chemical engineering degree can be completed within 3 years to 5 years. Chemical engineering requires an in-depth knowledge of mathematics, chemistry, and physics.

You can pursue the following careers after completing a degree in chemical engineering:

  • Petroleum Engineer
  • Chemical Engineer
  • Energy Engineer
  • Food Scientist
  • Biotechnologist.

The following schools offer the best chemical engineering programs:

  • Stanford University, USA
  • Massachusetts Institute of Technology, USA
  • University of Cambridge, UK
  • Imperial College London, UK
  • University of Waterloo, Canada.

3. Computer Engineering

This branch of engineering combines computer science with electrical engineering to design and develop computer hardware and software.

Computer engineering is considered difficult because it shares a lot of courses with electrical engineering. If you find electrical engineering difficult, you will also find computer engineering difficult.

Also, computer engineering would be challenging for students who do not enjoy coding and programming.

A bachelor’s degree in computer engineering can be completed within 4 to five years. Computer engineering requires a background in computer science, mathematics, and physics. Knowledge of programming or coding can also be useful.

You can pursue the following careers after earning a degree in computer engineering:

  • Computer Engineer
  • Programmer
  • System Engineer
  • Network Engineer.

4. Aerospace Engineering

Aerospace engineering is an engineering discipline concerned with the design, development, testing, and production of aircraft, spacecraft, and other related equipment. It has two main branches: Aeronautical engineering and Astronautical engineering.

Aerospace engineering is considered difficult because it involves a lot of mathematics and physics, and also requires good analytical skills and technical knowledge. This discipline will be difficult for students that don’t enjoy calculations.

If you have a background in mechanical engineering, aerospace engineering will be less difficult. We recommend earning a bachelor’s degree in mechanical engineering with a concentration in aerospace engineering, then studying aerospace engineering at a graduate level.

Aerospace engineering degrees can be completed within 3 to 5 years. Coursework may cover the following: differential equations, aircraft design, fluid mechanics, calculus, electrical circuits, thermodynamics, and aircraft aerodynamics.

You can pursue the following careers after earning a degree in aerospace engineering:

  • Aerospace Engineering
  • Mechanical Engineering
  • Aircraft Engineering
  • Aerospace Technician
  • Aircraft Mechanic.

The following schools offer the best aerospace engineering programs:

  • Massachusetts Institute of Technology (MIT), USA
  • California Institute of Technology, USA
  • University of Cambridge, USA
  • National University of Defense Technology, China
  • Cranfield University, UK.

5. Biomedical Engineering

Biomedical engineering is an interdisciplinary major that combines the field of engineering with medicine and biology to improve human health and for healthcare purposes.

This engineering discipline is challenging because there is a lot to learn. Biomedical engineering students take classes in a lot of fields – biology, medicine, and engineering.

Working as a biomedical engineer is more challenging than studying it. Biomedical engineers are responsible for designing and developing artificial organs to improve human health.

A degree in biomedical engineering can be completed within 4 to 5 years.

You can pursue the following careers after earning a degree in Biomedical engineering:

  • Bioengineer
  • Biomedical Engineer
  • Clinical Engineer
  • Genetic Engineer
  • Rehabilitation Engineer
  • Physician/Doctor.

The following schools offer the best biomedical engineering programs:

  • John Hopkins University, USA
  • Georgia Institute of Technology, USA
  • Imperial College London, UK
  • University of Toronto, Canada
  • National University of Singapore (NUS), Singapore.

6. Nuclear Engineering

Nuclear engineering is the field of engineering that deals with the science and application of nuclear and radiation processes.

This engineering course will be difficult for students that struggle with physics. It involves a lot of calculations. A strong background in mathematics and physics is required to study nuclear engineering.

Nuclear engineering coursework covers the following: reactor engineering, heat transfer and fluid mechanics, thermal hydraulics, plasma physics, reactor physics, radiation detection and measurement, materials science, and many more.

Nuclear engineers can work with armed forces to construct weapons, healthcare – to use radiation to diagnose and treat illnesses, and energy industry – overseeing the construction, maintenance, and operation of power plants.

A bachelor’s degree in nuclear engineering can be completed within 4 years and a master’s degree can be completed within 5 years.

The following schools offer the best nuclear engineering programs:

  • Reactor Engineer
  • Radiation Engineer
  • Atomic process Engineer
  • Nuclear System Engineer.

7. Robotics Engineering

Robotics engineering is the field of engineering concerned with the design, construction, and operation of robots – machines that replicate human actions.

This engineering discipline is challenging to study and practise. Building a Robot requires a lot of work. It requires an in-depth knowledge of mathematics, electronics, mechanics, programming, and computer science.

Courses in robotics engineering usually include: pneumatics and hydraulics, computer programming, robotics designing, artificial intelligence, mechatronics, electronic systems, and machine kinematics.

You can complete a robotics engineering degree in 3 to 5 years.

After completing a degree in robotics engineering, you can pursue these careers:

  • CAD Designer
  • Automation Engineer
  • Robotics Engineer
  • Mechatronics Technician.

The following schools offer the best robotics engineering programs:

  • Georgia Institute of Technology, USA
  • Massachusetts Institute of Technology (MIT), USA
  • University of Toronto, Canada
  • Imperial College London, UK
  • University of Oxford, UK.

8. Quantum Engineering

Quantum Engineering combines engineering skills with fundamental physics to solve contemporary problems.

This engineering discipline is considered difficult because it involves quantum mechanics. Quantum mechanics is one of the hardest parts of physics. Even at secondary level, quantum mechanics is a very challenging subject.

Quantum engineering will be difficult for students that don’t enjoy mathematics and physics. It also requires critical and analytical thinking.

Quantum engineering is rarely offered at undergraduate level. To become a quantum engineer, you can either earn a bachelor’s degree in electrical engineering or physics, then study quantum engineering at graduate and postgraduate levels. A degree in quantum engineering can be completed in 4 to 5 years.

The following schools offer the best quantum engineering programs:

  • University of New South Wales (UNSW), Australia
  • ETH Zurich, Switzerland
  • Massachusetts Institute of Technology (MIT), USA
  • University of Bristol, UK.

9. Nanotechnology Engineering or Nanoengineering

Nanoengineering is the branch of engineering that focuses on the study, development, and refinement of materials on a nanoscale (1 nm = 1 x 10^-9m). In simple words, nanoengineering is the study of engineering on the nanoscale.

Nanotechnology engineering is considered difficult to study because it is a combination of a lot of fields – from materials science to mechanics, electronics, biology, physics, medicine, and so on.

Nanoengineers can work in different industries, which include:

  • Aerospace
  • Healthcare and Pharmaceuticals
  • Environmental and energy
  • Agricultural
  • Robotics
  • Automotive.

The following schools offer the best nanoengineering programs

  • The University of California, San Diego, USA
  • Rice University, USA
  • The University of Toronto, Canada
  • University of Waterloo, Canada.

10. Mechatronics Engineering

This engineering course focuses on a combination of mechanical, computer, and electrical systems, to work with smart technologies, such as: robots, automated guided systems, and computer integrated manufacturing equipment.

Courses in mechatronics engineering coursework may include the following: electronic materials, electromagnetic fields, computer programming, measurements and analytical software, digital system design, electronic circuit design, applied mechanics and industrial robotics.

Mechatronics Engineering is more difficult than other engineering courses because it is a combination of various fields: mechanics, electronics, robotics, and so on.

A degree in mechatronics engineering can be completed in four years. It requires a strong background in mechanical, electronics, and computer science.

You can pursue the following careers after earning a degree in mechatronics engineering:

  • Control System Engineer
  • Software Engineer
  • Mechatronics Engineer
  • Automation Engineer
  • Robotics Engineer/Technician
  • Data Scientist.

The following schools offer the best mechatronics engineering programs:

  • University of Waterloo, Canada
  • Ontario Tech University, Canada
  • Massachusetts Institute of Technology, USA
  • Technical University of Munich, Germany
  • University of Manchester, UK.

Best Engineering Schools

Engineering careers are some of the most searched and well-paid in the world. To get “the best seats” in the Engineering industry you should make sure you are the best at what you do, or at least you have the best tools to develop the right set of skills the industry expects you to have.

Studying at one of the best engineering schools in the world can be a great start, but it’s not the only way. It’s a good starting point to have an idea about the best engineering universities, but you shouldn’t disregard other engineering schools just because they are not on the top 100 lists. Explore your options thoroughly before making a decision!

1. QS World University Rankings by Subject 2021: Engineering and Technology

  • Massachusetts Institute of Technology (MIT), US – 6.7% acceptance rate
  • Stanford University, US – 4.3% acceptance rate
  • University of Cambridge, UK – 21% acceptance rate
  • ETH Zurich – Swiss Federal Institute of Technology, Switzerland – 27% acceptance rate
  • Nanyang Technological University (NTU), Singapore – 36% acceptance rate
  • University of Oxford, UK – 17.5% acceptance rate
  • University of California, Berkeley (UCB), US – 16.3% acceptance rate
  • Imperial College London, UK – 14.3% acceptance rate
  • National University of Singapore (NUS), Singapore – 5% acceptance rate
  • Tsinghua University, China – 2% acceptance rate

2. U.S. News & Global Report – Engineering Universities 2021

  • Tsinghua University, China
  • Massachusetts Institute of Technology, US
  • Nanyang Technological University, Singapore
  • Harbin Institute of Technology, China
  • National University of Singapore, Singapore
  • Aalborg University, Denmark
  • University of California – Berkeley, US
  • Stanford University, US
  • Shanghai Jiao Tong University, China – 32% acceptance rate
  • Huazhong University of Science and Technology, China
Team of engineers discussing plans during a meeting

3. World University Rankings 2022 by subject: Engineering

  • Harvard University, US – 4.6% acceptance rate
  • Stanford University, US
  • University of California – Berkeley, US
  • Massachusetts Institute of Technology, US
  • University of Cambridge, UK
  • University of Oxford, UK
  • Princeton University, US – 5.8% acceptance rate
  • California Institute of Technology, US – 6.4% acceptance rate
  • ETH Zurich, Switzerland
  • National University of Singapor