Physics - Computer Techniques

Key Facts

• Program Title: Physics - Computer Techniques
• Degree Type: Bachelor of Arts
• Duration: 4 years
• Mode of Study: Full-time, On Campus
• Application Deadline: 05 January 2026
• Location: University of Pennsylvania, United States
• Field of Study: Physics
• Language of Instruction: English

Program Structure

Year 1 – Foundations in Physics and Computation

• Introduction to Physics and Scientific Principles
• Calculus and Mathematical Methods
• Introduction to Computer Programming
• Research Methods and Quantitative Analysis

Year 2 – Intermediate Study in Computational Physics

• Classical Mechanics and Electromagnetism
• Numerical Methods and Algorithms
• Data Analysis and Modeling
• Electives: Thermodynamics, Optics, or Material Science

Year 3 – Advanced Computational Techniques

• Quantum Mechanics and Simulation
• Computational Modeling of Physical Systems
• Applied Research Projects in Physics
• Electives: Computational Astrophysics, Condensed Matter, or Biophysics

Year 4 – Capstone and Professional Integration

• Senior Thesis or Independent Computational Research Project
• Seminar in Contemporary Computational Physics Topics
• Professional Portfolio Development
• Internship or Applied Project in Research, Engineering, or Technology

Career Opportunities

Graduates of the Physics: Computer Techniques program are prepared for careers in computational physics, data analysis, scientific research, engineering, software development, and technical consulting. Alumni may work as computational scientists, research analysts, software developers for scientific applications, or pursue graduate studies in physics, computational science, engineering, or applied mathematics. The program equips graduates to analyze complex physical systems, develop computational models, and apply theory to practical problems. With strong analytical, technical, and computational skills, graduates are highly competitive in professional and academic environments focused on scientific and computational challenges.

Why Choose This Program

This program is distinguished by its integration of computational modeling, physical theory, numerical analysis, and applied research within a four-year curriculum. Students benefit from mentorship, laboratory and computational resources, and hands-on projects that bridge theoretical physics with practical computation. The curriculum emphasizes critical thinking, quantitative reasoning, and problem-solving, preparing graduates to model complex systems, conduct innovative research, and contribute meaningfully to scientific and technological advancement. For students passionate about physics and computation, and eager to apply analytical and technical skills to real-world challenges, this program offers a rigorous, immersive, and career-focused pathway to professional and academic success.

Contact Information

For further information, please contact the admissions office at:
Phone: +1 215 898 5000
Email: admissions@upenn.edu
Address: University of Pennsylvania, Philadelphia, PA 19104, United States