Bachelor of Science in Chemical Engineering/MSc in Science, Technology and Public Policy in Rochester United States | Rochester Institute of Technology

A bachelor's degree in chemical engineering equips you to innovate in nanomaterials, semiconductors, pharmaceuticals, polymers, textiles, metals, and ceramics while pioneering sustainable energy solutions, biomedical advancements, and eco-friendly technologies. RIT's chemical engineering program offers a thorough curriculum designed to prepare students for breakthroughs in nanomaterials, semiconductors, pharmaceuticals, polymers, textiles, metals, and ceramics, as well as the creation of renewable energy systems, biomedical innovations, and environmentally conscious solutions.

Chemical engineering integrates chemistry, physics, biology, and mathematics to convert raw materials into higher-value products through chemical processes. Like all engineers, chemical engineers apply mathematical, physical, and engineering principles to solve technical challenges safely and cost-effectively. Their specialized knowledge is crucial for addressing problems involving chemical transformations. Beyond improving chemical production methods, they collaborate with chemists to engineer advanced materials for specific uses. Notable achievements include synthetic rubber, artificial fibers, medications, and plastics. Chemical engineers also drive progress in food technology, clean energy, microchip fabrication, and environmental solutions. Their process engineering focus fosters a holistic approach, enabling them to tackle diverse technical issues. Students gain hands-on experience with fundamental engineering concepts and their applications in both conventional and cutting-edge chemical engineering fields.
Combined BS in Chemical Engineering/MS in Science, Technology, and Public Policy: Technological innovation has consistently shaped societal, political, and economic landscapes. Governments worldwide implement policies to address challenges and meet social, economic, and ecological goals. The intersection of policy and technology grows increasingly important as societies evaluate how innovations can enhance living standards while considering how regulations influence technological progress. Engineers, as creators of new technologies, are becoming vital contributors to policy formation. Furthermore, policies affecting daily life—including those related to environmental protection, industry, energy, and national security—require engineers to incorporate policy considerations into their technical work.
1 MBA Program: Eligible undergraduate students can pursue an accelerated MBA by adding the business degree to their studies after completing their first academic year.