Theoretical Fundamentals of Mechanical Engineering

3 Years On Campus Bachelors Program

Czech Technical University in Prague

Program Overview

The Bachelor's in Theoretical Fundamentals of Mechanical Engineering at Czech Technical University in Prague (CTU FME) is a rigorous 3-year full-time program that builds a deep theoretical foundation in engineering sciences, ideal for students passionate about math, physics, and mechanics who want seamless entry into advanced Master's studies without admission exams. It suits motivated learners seeking broad knowledge over narrow specialization, blending core theoretical courses with practical insights into materials, technology, and real-world applications to prepare you for innovative engineering careers.

Curriculum Structure
Year 1 dives into the essentials of engineering thinking, starting with Theoretical Fundamentals like mathematics, constructive geometry, physics, and chemistry to build your analytical skills from the ground up. You'll also tackle computer graphics for visualizing complex designs, alongside introductory mechanics of rigid bodies, setting a strong base for everything ahead while keeping things engaging with group projects. This year eases you in without overwhelming pressure, focusing on how these tools apply to mechanical problems right away.

Year 2 ramps up with mechanics of rigid and deformable bodies, where you'll model how structures hold up under stress, combined with studies of materials to understand properties at a molecular level. Environmental mechanics and early thermodynamics join in, teaching you to predict system behaviors in real scenarios like fluid flows or heat transfer. It's here that optional "level A" courses let you accelerate toward Master's-level mastery, making your transcript stand out.

Year 3 sharpens your expertise through thermodynamics and fluid mechanics, analyzing energy systems and flows critical for engines or turbines, plus technology fundamentals for production processes. You'll integrate law, economics, and a technical foreign language, rounding out your profile with humanities and physical education for well-rounded development. By graduation, you'll defend a thesis tied to areas like transport or energy, ready to launch into industry or grad school.

Focus areas: Theoretical mechanics, materials science, thermodynamics, fluid dynamics, and engineering mathematics—no rigid specializations, but electives in transport, energy, or technology to tailor your path.

Learning outcomes: Master engineering-level math/physics models, mechanics of bodies and continua, material processing, digital design tools, informatics, automation, plus intermediate technical English for solving complex technical problems and advancing to Master's without exams.

Professional alignment (accreditation): Fully accredited by CTU FME, this program feeds directly into follow-up Master's in Mechanical Engineering (no entry exams for its grads) and doctoral paths like Applied Sciences in Mechanical Engineering, ensuring recognized credentials for R&D, industry, or academia across Europe.

Reputation (employability rankings): CTU FME grads are highly sought for their versatile skills, with the faculty's structured programs aligning to Industry 4.0 demands in mechatronics, biomechanics, and intelligent systems—official stats show strong employability in Czech industry and abroad, backed by employer training for specialized roles.

Ready to take the next step? Apply now and build your future in mechanical engineering: https://www.fs.cvut.cz/en/prospective-students/accredited-study-programmes/bachelor-study-programmes/theoretical-fundamentals-of-mechanical-engineering/

Experiential Learning (Research, Projects, Internships etc.)

At the Czech Technical University in Prague's Faculty of Mechanical Engineering (CTU FME), the Bachelor's in Theoretical Fundamentals of Mechanical Engineering builds practical skills through hands-on projects and real-world applications tied to core engineering courses like mathematics, physics, continuum mechanics, engineering materials, and production technology. You'll dive into mechanical design using the latest digital tools, conduct experiments in dedicated labs, and tackle group projects that mirror industry challenges, preparing you to solve technical problems right from your early semesters. This 3-year program emphasizes a broad foundation with project-oriented learning, so you graduate ready for master's studies, research, or direct entry into engineering roles.

Here are some standout ways you'll gain experiential learning specific to this program: these elements connect theoretical fundamentals directly to practice through facilities and activities at CTU FME:
- Laboratories for practical experience: Hands-on work in labs focused on mechanics of body systems, continuum mechanics (solid and liquid phases), and simulations of mechanical systems, where you'll design experiments, identify parameters, and verify models.
- Group projects and project-oriented teaching: Compulsory projects in areas like transport, technology, and energy, building on core subjects to develop and solve mathematical models for physical-mechanical systems—perfect for collaborative, real-technical problem-solving.
- Digital tools and software: Mastery of mechanical design using the latest digital tools, including simulation software like FlexSim (one of CTU's most popular tools, introduced as the first Czech university for education), plus numerical methods, programming, and informatics basics essential for modern engineering.
- Practical work experience and internships: Organized factory placements during summer holidays (4 weeks after 1st and 3rd years), including manual work, design, and technology experience in Prague and national factories, led by academic staff—integral to the program's tradition.
- Research-designated facilities: Access to advanced labs for theoretical mechanics, elasticity theory, fluid mechanics, and thermomechanics, supporting experiments and parameter identification for engineering tasks.

Progression & Future Opportunities

At the Czech Technical University in Prague's Faculty of Mechanical Engineering (CTU FME), the Bachelor's in Theoretical Fundamentals of Mechanical Engineering dives deep into hands-on learning right from the start, building your skills through project-oriented teaching, experiments, and real-world applications of math, physics, and mechanics. You'll work with advanced simulation tools, conduct lab experiments on mechanical systems, and tackle group projects that mirror industry challenges, all while gaining practical experience that's directly tied to engineering practice. This sets you up perfectly for innovative careers or master's studies, with a focus on designing numerical models and verifying them through hands-on testing.

Here's how our program makes experiential learning come alive with specific facilities and opportunities tailored to theoretical mechanical engineering:

- Laboratories for practical experiments: Access specialized labs to design and run experiments on physical-mechanical systems, identify parameters of real models, and verify simulations—essential for mastering continuum mechanics, elasticity, and fluid dynamics.
- Project-oriented group work: Dive into compulsory projects focused on areas like transport, technology, and energy, where you'll collaborate in teams to apply theoretical knowledge, much like the historical integration of group factory experiences led by faculty.
- Simulation and digital tools: Use the latest digital tools for mechanical design and popular university software like FlexSim for simulations of mechanical systems, numerical modeling, and Industry 4.0 applications—right in your coursework.
- Historical practical training model: Follow in the footsteps of our tradition with structured practical work, including summer factory placements for 1st- and 3rd-year students (4 weeks of manual, design, and tech experience in Prague and beyond, supervised by staff).
- Research and advanced facilities: Leverage faculty resources like world-class pilot equipment for experimental verification, plus ties to institutes for mechanics, materials testing labs, and innovative R&D in engineering firms or our own research centers.