Chemical Engineering is the only engineering discipline that makes extensive use of chemical transformations (reactions) in addition to physical transformations (refining, molding or machining) to achieve added value. Chemical engineers are employed in virtually all manufacturing industries, from the basic chemical, materials, energy, food, pharmaceutical and microelectronics industries to the myriad consumer product industries. Our various curricula are designed to produce graduates who are broadly educated as well as highly adaptable.
BMEN – BS in Biomedical Engineering – University of Southern California
USC’s Bachelor of Science program in Biomedical Engineering was launched in 1974. Since its inception, the BME program has attracted many of the highest-achieving students at USC, including University valedictorians and salutatorians, as well as School of Engineering valedictorians.
All BME degrees combine high-level coursework from mathematics, the sciences, engineering, and USC’s general education program. The biochemical area of emphasis begins with the BME core curriculum and then adds a carefully selected course sequence that allows for more in depth work in chemistry.
BMEL – BS in Biomedical Engineering – University of Southern California
USC’s Bachelor of Science program in Biomedical Engineering was launched in 1974. Since its inception, the BME program has attracted many of the highest-achieving students at USC, including University valedictorians and salutatorians, as well as School of Engineering valedictorians.
All BME degrees combine high-level coursework from mathematics, the sciences, engineering, and USC’s general education program. The biochemical area of emphasis begins with the BME core curriculum and then adds a carefully selected course sequence that allows for more in depth work in chemistry.
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