Dual Bachelor in Engineering Physics and Industrial Technologies Engineering

5 Year Part Time Dual-bachelors Program

University Carlos III de Madrid

Program Overview

The Dual Bachelor in Engineering Physics and Industrial Technologies Engineering at University Carlos III de Madrid (UC3M) is a bilingual, 5.5-year program (354 ECTS credits) designed for ambitious students passionate about blending cutting-edge physics with practical industrial engineering to innovate in tech-driven industries. It suits those who love problem-solving through math, science, and hands-on tech, preparing you to design advanced systems and lead in fields like automation, energy, and materials—giving you two powerful degrees in one dynamic package.

Curriculum Structure

Year 1:
You begin by building a strong scientific and mathematical foundation that supports everything ahead. Courses like Calculus, Linear Algebra, General Physics, and Programming help you develop analytical thinking and problem-solving skills, while introducing you to how physics and engineering connect in real-world systems.

Year 2:
In the second year, you deepen your understanding of core concepts and start linking theory to application. You’ll study subjects such as Differential Equations, Thermodynamics, Materials Science, and Electronics Fundamentals, giving you a clearer picture of how physical principles translate into engineering solutions used in industry.

Year 3:
This is where things become more engineering-focused and practical. You’ll explore areas like Electromagnetic Fields and Waves, Electrical Power Engineering Fundamentals, and Electronic Engineering Fundamentals, while also developing hands-on skills through Machine Mechanics and Production Systems and Manufacturing Technologies—bridging theory with real industrial applications.

Years 4–5 (Advanced Stage):
As you progress, the program becomes more specialised and innovative. You’ll work on advanced topics such as Industrial Automation, Thermal Engineering, Biophysics, and Instrumentation and Measurements, while also exploring sustainability through Environmental Technology—preparing you to design efficient, future-ready systems.

Final Stage (Year 5–6 Completion):
You wrap up your studies with high-level expertise in areas like Advanced Sensors and Measurement Techniques, followed by two major projects: the Bachelor Thesis in Physics and the Bachelor Thesis in Industrial Technologies. These capstone projects allow you to apply everything you’ve learned to real-world challenges, often in collaboration with industry or research teams.

Focus Areas: Cutting-edge physics (quantum, electromagnetics, biophysics, photonics) fused with industrial tech (automation, thermal systems, materials, production, sensors).

Learning Outcomes: Master solid-state physics for semiconductors, electronic instrumentation, machine design, manufacturing processes, and elasticity principles—equipping you to design experiments, optimize systems, and innovate in electronics, energy, and biotech.

Professional Alignment (Accreditation): The Industrial Technologies Engineering component is accredited by EurAce, qualifying you as a versatile engineer ready for regulated roles in industry, with credits recognized across Europe.

Reputation (Employability Rankings): UC3M boasts 94.8% of Engineering Physics graduates employed in related fields within one year, backed by 5,000+ company partnerships for internships—positioning you at the top for high-demand tech careers.

Experiential Learning (Research, Projects, Internships etc.)

At Universidad Carlos III de Madrid (UC3M), the Dual Bachelor in Engineering Physics and Industrial Technologies Engineering stands out because you'll dive right into hands-on learning from early on, building real-world skills in areas like manufacturing systems, automation, materials engineering, and advanced physics applications through practical coursework and projects. You'll get to apply concepts like elasticity and strength of materials to real solids, design and test machines, and work with production processes, metrology, and quality control—skills that employers love for industrial engineering roles. This program equips you with tools for simulation, instrumentation, and even cutting-edge electives like quantum technologies or neural engineering, all while using university-grade software and labs tailored to these fields.

Here's how you'll gain that experiential edge, straight from the program's structure:
- Group projects and simulations: Courses like "Diseño y simulación de sistemas productivos" (Design and Simulation of Production Systems) and "Engineering Projects" involve team-based design, testing machines, and simulating dynamic systems.
- Software and digital tools: Training in "Hojas de cálculo. Nivel avanzado" (Advanced Spreadsheets), computing systems, databases, and engineering software for automation, control, and data analysis.
- Laboratories for research and instrumentation: Hands-on work in "Instrumentación Electrónica" (Electronic Instrumentation), "Instrumentation and Measurements," and advanced sensors for physics, engineering, and even biofabrication or nanoelectronics.
- Internships: Elective "Professional Internships" worth up to 12 ECTS, giving you real industry experience alongside your studies.
- Specialized facilities: Access to labs for thermal engineering, machine mechanics, production technologies, and electives like plasma physics, nanomaterials, or quantum technologies—perfect for research in energy storage or spintronics.

Progression & Future Opportunities

At Universidad Carlos III de Madrid (UC3M), the Dual Bachelor in Engineering Physics and Industrial Technologies Engineering stands out for its strong focus on hands-on learning, where you'll dive into real-world applications through courses like Production Systems and Manufacturing Technologies, Machine Mechanics, Industrial Automation, and Instrumentation and Measurements. These build practical skills in designing, simulating, and testing systems—think calculating machine behaviors, mastering metrology and quality control, or applying materials engineering to solid structures. You'll get direct experience with cutting-edge tools in labs and projects that mirror industry demands, preparing you to tackle complex engineering challenges right away.

Here's how this program delivers experiential learning through specific UC3M resources and opportunities:
- Laboratories for hands-on experimentation: Work in dedicated facilities for mechanics of structures, thermal engineering, electronic instrumentation, and production systems, applying elasticity, strength of materials, and manufacturing processes to real solids and machines.
- Software and digital tools training: Courses like "Hojas de cálculo. Nivel avanzado" (Advanced Spreadsheets), "Diseño y simulación de sistemas productivos" (Design and Simulation of Production Systems), and "Técnicas de búsqueda y uso de la información" (Information Search and Use Techniques) teach industry-standard simulation, data analysis, and computing tools essential for engineering.
- Group projects and design work: Engage in team-based learning through subjects like Engineering Projects, Machine Mechanics, and Control Engineering, where you'll collaborate on designing production systems, testing machines, and solving thermodynamics/fluid mechanics problems.
- Professional Internships: Opt for 12 ECTS of external internships as electives, gaining real industry exposure alongside advanced topics like Plasma Physics, Nanomaterials, or Quantum Technologies.
- Specialized research-oriented facilities: Access labs for biophysics, neural engineering, spintronics, and advanced materials for energy production/storage, tying into the program's physics-engineering blend for cutting-edge experimentation.