Engineering Physics
The Engineering Physics Master of Engineering program at Cornell University offers a rigorous, application centered learning environment for students who want to combine advanced physics knowledge with engineering problem solving. The curriculum integrates core physical principles with computational tools, laboratory methods, and engineering design, enabling learners to explore how physics supports modern technologies, materials, and high performance systems. With a strong emphasis on applied physics, students investigate real world challenges involving energy systems, electronic materials, photonics, and emerging technologies while strengthening their analytical and mathematical abilities. This structure helps learners build the conceptual and technical foundation required to innovate in physics based engineering fields.
Throughout this one year program, students work with faculty engaged in cutting edge research in optics, nanotechnology, solid state physics, and advanced instrumentation. Learners also gain practical experience through laboratory projects, simulation based assignments, and interdisciplinary applications that reinforce the connection between physics and engineering. With opportunities to build competence in experimental techniques, data analysis, and engineering design methods, students develop the skills needed to interpret complex physical behavior and apply scientific reasoning to engineering solutions. This combination of theory and practice prepares graduates for both industry focused and research oriented career paths.
Key information
Key Facts
- Program Title: Engineering Physics
- Degree Type: Master of Engineering
- Duration: 1 year
- Mode of Study: Full-time, On Campus
- Application Deadline: 01 April 2026
- Location: Cornell University, United States
- Field of Study: Physics
- Language of Instruction: English
Program Structure
Semester 1
• Applied Physics for Engineers
• Quantum and Electronic Materials
• Computational Methods in Engineering Physics
• Elective in Photonics, Nanoscience, or Materials
Semester 2
• Engineering Physics Design Project
• Advanced Instrumentation and Measurement
• Data Analysis for Physical Systems
• Elective in Device Physics, Energy Systems, or Applied Mechanics
Career Opportunities
Graduates of this program advance into roles across engineering, research, and technology development, frequently joining semiconductor and electronics companies, applied physics laboratories, advanced materials organizations, and engineering design groups. With strong analytical and experimental preparation, they contribute to projects involving device fabrication, optical systems, energy technologies, computational modeling, and high performance materials. Their interdisciplinary training enables them to support innovation, improve engineering processes, develop scientific prototypes, and participate in research that connects physical science with technological advancement across both private industry and research institutions.
Why Choose This Program
This program is an excellent choice for students who want to combine physics expertise with engineering application, offering opportunities to build strong technical skills and advanced physical insight supported by Cornell’s research driven engineering environment. Through laboratory work, project based learning, and interdisciplinary study, students gain the ability to analyze complex physical systems and design solutions that address real technological challenges. Its focused one year structure provides efficient, high level skill development, making it a powerful pathway for individuals seeking impactful careers in engineering physics, advanced technology development, and applied scientific innovation.
Contact Information
For further information, please contact the admissions office at:
Phone: +1 607 255 2000
Email: admissions@cornell.edu
Address: Cornell University, Ithaca, NY 14850, United States
