Hardest Undergraduate Degree
The hardest undergraduate degrees require students to have an exceptionally strong background in math and science. They often take longer than four years to complete, and they expect their students to be extremely well prepared before even starting. It’s no wonder that these degrees are so tough—they teach some of the most useful skills you can ever learn!
Chemical engineering is a branch of engineering that applies the science of chemistry to the process of manufacturing, construction and engineering. Chemical engineers are involved in the design, construction and operation of plants, equipment and processes to convert raw materials into useful products. Examples of products that chemical engineers work on include:
Chemical engineers can also work as consultants by providing advice on technical matters or business strategies.
Civil engineering is the most popular undergraduate degree in the world, with an estimated 1.5 million graduates per year. Civil engineers are in high demand, as they make up 30% of all professional engineers and account for 40% of all bachelor’s degrees awarded in engineering fields. Civil engineers are also some of the most employable engineers: they’re more likely to get a job than their peers with other types of degrees.
The electrical engineering degree program combines core classes with a focus on electrical engineering principles, systems and applications. The curriculum includes:
Electrical circuits and devices; communication systems; digital electronics; computer systems organization and architecture; embedded systems design; software system design; digital signal processing (DSP); control systems analysis and design; power electronics.
The ASEE has ranked Electrical Engineering as the 5th Hardest Undergraduate Degree out of all majors in America.
Mechanical engineering is the discipline that applies the principles of engineering, physics, and materials science for analysis, design, manufacturing, and maintenance of mechanical systems. It is the branch of engineering that involves the development of machines and tools. It is one of the oldest and broadest of the engineering disciplines.
Mechanical engineers typically do the following:
- Design mechanical systems to meet desired needs by analyzing need and applying basic scientific principles to find solutions to achieve design objective in safe manner;
- Develop new or improved methods/processes/products;
- Control product quality through monitoring process inputs such as raw materials used; operating parameters during processing such as temperature or pressure measurements during a reaction process etc.; inspecting finished products produced by company’s equipment (like checking if screws are not too long); studying customer complaints about defects found in products purchased from supplier companies etc.; evaluating whether current production processes can be improved upon before investing money into new equipment purchase so as not waste resources unnecessarily on investments without proven return on investment ratio when considering additional financial costs associated with purchasing new machines against potential improvements gained from using them (ROI).
Aeronautical engineering is the application of engineering principles to the design, construction, and operation of aircraft. It is a broad field of study that incorporates aspects of several other fields: aerodynamics, propulsion, materials science, structural analysis and manufacturing.
Aeronautical Engineering can be split into three major branches: aerodynamics which includes fluid mechanics; flight mechanics which includes dynamics; and propulsion which includes jet engines
Bioengineering is a combination of biology, chemistry and engineering. This degree is relatively new and often requires an additional year or two beyond your bachelor’s degree to complete. While it may not be the most well known field of study, bioengineers are in high demand in both the medical field and pharmaceutical industry. Though certification isn’t required to work as a bioengineer, it can help you land a job faster.
Computer Engineering combines the study of computer science with electrical engineering. Students who pursue this degree are trained to design and build computer systems, including processors, operating systems and networking devices. Computer engineers also work on hardware for artificial intelligence applications and robotics.
In recent years, the demand for trained computer engineers has been steadily increasing as technology becomes more integrated into our personal lives. As such, there’s a ton of potential for job growth within this field over time; according to the Bureau of Labor Statistics (BLS), employment opportunities should increase by about 19 percent through 2026—more than twice as fast as other related occupations