Curriculum

The Course III S.B. includes the core subjects, a Thesis or Internship, and Restricted Electives chosen from a wide assortment. Core subjects are 3.012 and 3.014 (Sophomore Fall) and 3.022 and 3.024 (Sophomore Spring), and 3.032, 3.034, 3.042 and 3.044 (Junior or Senior).  See the schedule page and the degree requirements for detailed information. The Course 3 SB is accredited by ABET and follows a set of Educational Objectives. 

Sophomore  

Fall

  • 3.012 Fundamentals of Materials Science (15) REST (OCW archive available). MIT Energy Initiative article about 3.012.
  • 3.014 Materials Laboratory (12) CI-M (OCW archive available )

Spring

  • 3.022 Microstructural Evolution in Materials (12)
  • 3.024 Electronic, Optical and Magnetic Properties of Materials (12) (see catalog description)

Junior and Senior  

  • 3.032 Mechanical Properties of Materials (12) (OCW archive available)
  • 3.034 Organic and Biomaterials Chemistry (12) (OCW archive available)
  • 3.042 Materials Project Laboratory (12) CI-M
  • 3.044 Materials Processing (12) (OCW archive available)
  • To satisfy the Computation requirement, 3.021J Introduction to Modeling and Simulation (12) REST (OCW archive available), can be taken as sophomore instead; or 1.00, Engineering Computation and Data Science (12) REST, or 6.00, Introduction to Computer Science and Programming (12) REST, or 3.016. OCW archive available.

For more information on Course 3 SB requirements, see the MIT Course Catalogue. For subject descriptions, see the MIT Bulletin. Also, many subjects have an archive on MIT's Open Course Ware site. 

Note: 3.016 changed to 3.016 Computational Methods for Materials Scientists and Engineers . It only satisfies the computation or restricted elective requirement (no longer the math requirement). 

In 1925, Edith Paula Chartkoff Meyer became the first woman to earn the S.B. in metallurgy.