The Physics Engineering programme at Ankara University offers a robust undergraduate curriculum blending fundamental physics with engineering applications. Designed for students who wish to gain deep theoretical knowledge of physics while acquiring practical engineering skills, the programme combines classical physics education with modern instrumentation, modeling, and applied physics courses. Students learn to analyze complex physical systems, design experiments, and work with hardware and software tools for simulations and measurements — preparing them for careers in research, industry, technology development, or advanced academic studies.
The program spans eight semesters and aims to produce graduates capable of bridging physics theory and engineering practice. Located in Ankara — one of Türkiye’s central hubs for science and engineering — this programme benefits from experienced faculty, well-equipped laboratories, and a curriculum that emphasizes both scientific rigour and practical problem-solving. With a balanced focus on mathematics, theoretical physics, experimental work, and engineering applications, the department offers students a versatile education suitable for evolving technological and scientific challenges.
Key information
Key Facts
- Degree: Bachelor of Science (B.Sc.) in Physics Engineering
- Standard period of study: 8 semesters / 4 years
- Location: Ankara, Türkiye
- Study Type: Undergraduate (full-time)
- Admission semester: Fall semester
- Area of study: Applied Physics, Theoretical Physics, Instrumentation, Computational Physics, Engineering Physics
- Admission modus: National university admission procedures (SAY-type)
- Main language: English
Program Structure
Semester 1 – Foundations of Physics & Mathematics
- Calculus I & Mathematics for Engineers
- General Physics I – Mechanics
- Basic Chemistry / Physics Laboratory
- Introduction to Engineering Physics Concepts
Semester 2 – Core Physics & Mathematical Tools
- Calculus II / Linear Algebra
- General Physics II – Electromagnetism
- Waves, Oscillations & Thermodynamics
- Physics Laboratory & Computational Methods
Semester 3 – Intermediate Theoretical & Experimental Physics
- Classical Mechanics & Dynamics
- Modern Physics I (Relativity & Quantum Basics)
- Differential Equations & Mathematical Methods
- Laboratory Work / Experimental Physics I
Semester 4 – Advanced Physics Disciplines
- Quantum Mechanics I
- Electromagnetic Fields & Waves
- Statistical Physics & Thermodynamics II
- Instrumentation & Measurement Techniques
Semester 5 – Applied & Engineering-Oriented Physics
- Electronics & Analog Circuits
- Computational Physics / Numerical Methods
- Materials Physics / Solid State Fundamentals
- Elective Course I
Semester 6 – Modern Physics & Specialized Topics
- Quantum Mechanics II / Advanced Topics
- Optics and Photonics / Laser & Optical Systems
- Signals & Systems / Data Acquisition & Processing
- Elective Course II
Semester 7 – Research & Project Preparation
- Applied Physics Project / Experimental Research
- Computational Modeling / Simulation Course
- Elective Course III (e.g. Renewable Energy, Medical Physics, Materials)
- Graduation Project Planning
Semester 8 – Graduation Project & Professional Preparation
- Bachelor’s Thesis or Capstone Project (Design / Research)
- Seminar & Scientific Presentation Skills
- Professional Ethics & Career Development
Career Opportunities
With a Physics Engineering degree, graduates can pursue roles in research institutions, high-tech industries, instrumentation and measurement, energy, materials science, software development (scientific computing), data analysis, engineering design, academia, or graduate studies (M.Sc./Ph.D.). They are well-suited for fields requiring strong quantitative, analytical, and problem-solving skills — from R&D to applied engineering, from scientific computing to industrial physics and beyond.
Why Choose This Program
Choosing Physics Engineering at Ankara University means receiving a dual-focused education: one that merges the depth of physics theory with the applicability of engineering practice. This hybrid training enables students to understand the universe at fundamental levels and to design and build real-world physical and technological systems.
The department’s combination of theoretical courses, laboratory work, computational training, and project-oriented study provides a diversified foundation — making graduates adaptable to academia, industry, and research. For students passionate about physics and eager to apply it in technological, scientific, or engineering domains, this programme offers a versatile and future-oriented path.
Contact Information
Ankara University – Faculty of Engineering
Department of Physics Engineering
06100 Tandoğan, Ankara, Türkiye
Tel: +90 312 203 3307
Fax: +90 312 212 7343
Email: phyeng@eng.ankara.edu.tr
Student Affairs – Faculty of Engineering
06100 Tandoğan, Ankara, Türkiye
Tel: +90 312 203 3307 (Department Secretary)
Fax: +90 312 212 7343
Email: ogrenciisleri@eng.ankara.edu.tr
International Office – Ankara University
Dögol Caddesi, 06100 Tandoğan, Ankara, Türkiye
Tel: +90 312 212 6040
Fax: +90 312 213 6747
Email: erasmus@ankara.edu.tr
