Bachelor of Science in Mechanical Engineering
The Bachelor of Science in Mechanical Engineering (BSME) is a four-year degree program that equips students with knowledge and skills in mechanical design, energy conversion, manufacturing processes, and system automation, preparing them for careers in various engineering and industrial sectors. (CMO No. 97, s. 2017)
I
II
TOTAL UNITS OF THE CURRICULUM
Technical Courses
A. Mathematics (EMATH)
B. Natural/Physical Sciences (ECHEM. EPHYS)
C. Basic Engineering Sciences (BES)
D. Allied Courses (ME-AC)
E. Professional Core Courses (ME-PC)
F. Technical Electives (ME-PE)
G. Fundamental Courses (ME)
Non-Technical Courses
A. General Education Courses (GEC)
B. Mandated Courses (GEC-LWR)
C. General Education Electives (GEE)
D. Physical Activities Towards Health and Fitness
(PATHFit)
E. National Service Training Program (NSTP)
TOTAL
UNITS
(141)
16
8
20
9
22
6
60
(50)
24
3
9
8
6
191
Program Educational Objectives
Three to five years after graduation of the BSME Program, a CTU mechanical engineer will be able
PEO 1. To continuously enhance knowledge and skills in mechanical engineering, integrating cutting-edge technologies and methodologies, in order to achieve excellence in professional practice and contribute to advancements in the field.
PEO 2. To uphold the highest ethical standards and professional integrity in all aspects of mechanical engineering practice, demonstrating honesty, accountability, and responsibility to ensure the well-being of individuals, society, and the environment throughout their career.
PEO 3. To actively engage in service-oriented activities, utilizing mechanical engineering knowledge and skills to address societal challenges, improve quality of life, and contribute to sustainable development within local and global communities.
PEO 4. To effectively communicate and collaborate with diverse stakeholders, fostering a sense of unity and shared purpose, to achieve common goals and drive innovation in mechanical engineering projects and initiatives.
PEO 5. Acquire and apply advanced engineering knowledge and skills to engage in research, design, and development initiatives, integrating entrepreneurial thinking and promoting sustainable practices in the global industry.
Program Outcomes
By the time of graduation, the students of the program shall have the ability to:
PO 1. Apply knowledge of mathematics and science to solve complex mechanical engineering problems;
PO 2. Design and conduct experiment, as well as to analyze and interpret data;
PO 3. Design a system, component, or process to meet desired needs within realistic constraints, in accordance with standards;
PO 4. Function in multidisciplinary and multi-cultural teams;
PO 5. Identify, formulate, and solve complex mechanical engineering problems;
PO 6. Understand professional and ethical responsibility;
PO 7. Communicate effectively;
PO 8. Understands the impact of mechanical engineering solutions in a global, economic, environmental, and societal context;
PO 9. Recognize the need for, and engage in lifelong learning;
PO 10. Know contemporary issues;
PO 11. Use techniques, skills, and modern engineering tools necessary for mechanical engineering practice; and
PO 12. Know and understand engineering and management principles as a member and leader of a team, and to manage projects in a multidisciplinary environment.