The Course 16 major requirements are as follows: Departmental Core. Students must take all of the following: ⢠Differential Equations (12 units): 18.03 or 18.034 School of Engineering; Aerospace Engineering (Course 16) Archaeology and Materials (Course 3- C) Biological Engineering (Course 20) Chemical- Biological Engineering (Course 10- B) Chemical Engineering (Course 10) Chemical Engineering (Course 10- C) Computer Science and Engineering ⦠All undergrad full-time students are eligible for off-campus internships. MIT's undergraduate program in aeronautical engineering, Course XVI, began in 1926, under the auspices of the Department of Mechanical Engineering. Go to the Maker Lodge and get trained to use the best equipment available anywhere, or take your idea to MIT.nano and build it one atom at a time.. Want to build new machines? These are the top undergraduate schools where the highest engineering degree offered is a doctorate. Full-time and continuing MIT undergraduates may participate in the MIT Undergraduate Research Opportunities Program , which enables students to work on campus during the summer. When you apply to MIT, you apply to the entire university, not to a specific major or school, so all first-year students begin MIT undeclared. Aerospace systems engineering Explores the central processes in the creation, implementation, and operation of complex socio-technical engineering systems. MIT is the best place in the world to be an engineering student â just ask the people studying here.. Want to make something? These programs train students in the science of flight, both for aircraft and spacecraft. Graduate study combining aerospace engineering with biomedical engineering may be pursued through the Bioastronautics program offered as part of the Medical Engineering and Medical Physics PhD program in the Institute for Medical Engineering and Science (IMES) via the Harvard-MIT Program in Health Sciences and Technology (HST). Course 16 Major Requirements. Core disciplines include system architecture and engineering, simulation and modeling, safety and risk management, policy, economics, and organizational behavior.