The combined degree program awards its graduates a BSc in Materials Engineering and Chemistry. This combination imparts graduates with full training as material engineers who can embark on careers in research and development or in the manufacturing industry alike, in those fields requiring specific expertise in chemistry.
The first part of the curriculum places emphasis on the in-depth study of the basic subjects (mathematics, physics, chemistry and computers). Already during their freshman year, students complete the introductory courses in materials engineering.
The second part of the curriculum includes compulsory courses in materials engineering, during which students acquire a scientific foundation for each of the disciplines comprising materials engineering, and advanced chemistry courses.
The compulsory courses include:
- The fundamental courses in materials science, such as: thermodynamics, kinetics and the mechanical behavior of materials.
- Courses focusing on methodologies for characterizing the structure, composition and various properties of materials.
- Courses focusing on materials processing and on properties of semiconductors, metals, plastics and ceramics.
- Concurrently, students complete the compulsory courses in chemistry, such as: quantum chemistry, physical chemistry, analytical chemistry, organic and inorganic chemistry.
During the final part of the curriculum, students specialize in specific fields, such as electronic materials, polymers, metallurgy or ceramics. Specialization is acquired primarily through elective courses (out of the lists of elective courses of the Department of Materials Science and Engineering and of the Department of Chemistry) and through the completion of advanced projects. Students’ participation in laboratory work is an integral part of the curriculum, during which students conduct experiments and acquire hands-on knowledge about phenomena and processes.