Mechanical Engineering covers the design, analysis, and manufacture of mechanical systems, from small components to large machinery and industrial equipment. Core coursework includes statics and dynamics, thermodynamics, fluid mechanics, materials science, and machine design, complemented by manufacturing processes and computer-aided design and modeling tools. Students learn to apply physical principles to practical engineering problems, such as how forces act on structures, how heat and energy move through systems, and how materials behave under stress, and they translate this understanding into workable designs. Laboratory and workshop sessions give students direct experience with measurement instruments, prototyping, and testing equipment, reinforcing the theoretical material taught in lectures. Many programs also include coursework in control systems, robotics, and automation, areas that increasingly overlap with mechanical engineering as manufacturing becomes more automated. Group design projects, often spanning multiple semesters, teach students to manage the full engineering process from concept through prototype and testing. Mechanical engineers are employed across the automotive, aerospace, energy, manufacturing, and construction sectors, working in roles such as design engineer, production engineer, quality engineer, or maintenance and reliability specialist. The broad technical training also prepares graduates for project management and technical sales roles that require an engineering background. This bachelor's program is delivered in English over 4 years at Karabük University in Karabük, Turkey. Karabük has a long-standing connection to the iron and steel and metalworking industries, giving mechanical engineering students in the region practical context for coursework on materials and manufacturing. Across the four-year sequence, foundational science and mathematics courses give way to applied design and manufacturing coursework in the later years.