Bachelor of Science in Mechanical Engineering (BSME)

Program Overview A rigorous foundation in the principles of energy, materials, and mechanics, focusing on the design and manufacturing of mechanical systems—from microscopic devices to massive power plants.

Core Curriculum & Technical Expertise

• Key Courses: Thermodynamics, Fluid Mechanics, Mechanical Design.

• Technical Pillars: Heat Transfer, Machine Design, and Electromechanical Systems.

• Applied Training: Access to high-tech fabrication labs, participation in robotics competitions, and industry-sponsored senior design projects.

• Sustainability: Integrated curriculum on sustainable engineering practices to address climate change and resource scarcity.

Admissions & Prerequisites

• Academic Foundation: Advanced background in Calculus and Physics.

• Technical Skills: Proficiency in Computer-Aided Design (CAD) software.

• Testing: Competitive SAT/ACT math scores required.

Faculty Spotlight

• Lead Innovator: Dr. Nikola Tesla (Professor of Electromechanical Systems).

• Expertise: Polyphase AC Systems, Mechanical Oscillators, and Wireless Power Transfer.

• Research Impact: Holder of 300+ patents; pioneer in high-frequency engineering and the development of the induction motor.

• Student Impact: Mentors students in the "Invention Lab," pushing them to visualize complex mechanical designs without physical prototypes—a technique he pioneered for rapid innovation.

Career & Industry Outcomes

• Primary Paths: Automotive Engineer, Aerospace Specialist, Renewable Energy Consultant, and Manufacturing Lead.

• Global Impact: Focus on large-scale power generation and efficient mechanical automation.

International Student Requirements

• Credentialing: Full evaluation of previous academic credentials for US equivalency.

• Language: Mandatory proof of English proficiency (TOEFL/IELTS) for technical communication.