BS MECHANICAL ENGINEERING

Brief History

Batangas State University started as a Manual Training School in 1903 under the supervision of an American principal, Mr. Scheer. The school was renamed Batangas Trade School in 1905 and through Republic Act 746 its name was changed to Pablo Borbon Memorial Trade School in 1953. The school became the Pablo Borbon Regional School of Arts and Trade and started offering technical courses in 1957. The regional school was converted into a state college by virtue of RA 5270 known as Pablo Borbon Memorial Institute of Technology in 1968. It was the 23rd state college of the country at the time of conversion. In 1971, the college first offered engineering courses with specialization in Mechanical and Electrical Engineering. And finally, by the virtue of RA 9045, Pablo Borbon Memorial Institute of Technology was elevated into Batangas State University.

The Mechanical Engineering Program was the first engineering program offered in the university in AY 1971-1972 as stipulated in Board Res. No.109, S.2008, D1, along with BS Electrical Engineering. The BSME Program obtained Level IV Phase 2 Re Accredited Status given by the Accrediting Agencies of Chartered Colleges and Universities in the Philippines (AACCUP).

Board Resolution

Statement of Program Educational Objectives

The mechanical engineering alumni three to five years after graduation shall:

  1. Specialist. Successfully practice in mechanical and thermal systems for the advancement of society.
  2. Professionalism. Promote professionalism in mechanical engineering practice.

Statement of Student Outcomes

ABET Student Outcomes

  1. An ability to identify, formulate, and solve complex engineering problems by applying principles of engineering, science, and mathematics
  2. An ability to apply engineering design to produce solutions that meet specified needs with consideration of public health, safety, and welfare, as well as global, cultural, social, environmental, and economic factors
  3. An ability to communicate effectively with a range of audiences
  4. An ability to recognize ethical and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of engineering solutions in global, economic, environmental, and societal contexts
  5. An ability to function effectively on a team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives
  6. An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions
  7. An ability to acquire and apply new knowledge as needed, using appropriate learning strategies.

PTC Student Outcomes

  1. Apply knowledge of mathematics, natural science, engineering fundamentals and an engineering specialization to the solution of complex engineering problems;
  2. Conduct investigations of complex engineering problems using research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of information to provide valid conclusions;
  3. Design solutions for complex engineering problems and design systems, components or processes that meet specified needs with appropriate consideration for public health and safety, cultural, societal, and environmental considerations;
  4. Function effectively as an individual, and as a member or leader in diverse teams and in multi-disciplinary settings;
  5. Identify, formulate, research literature and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences and engineering sciences;
  6. Apply ethical principles and commit to professional ethics and responsibilities and norms of engineering practice;
  7. Communicate effectively on complex engineering activities with the engineering community and with society at large, such as being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions;
  8. Understand and evaluate the sustainability and impact of professional engineering work in the solution of complex engineering problems in societal and environmental context;
  9. Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change;
  10. Apply reasoning informed by contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to professional engineering practice and solutions to complex engineering problems;
  11. Create, select and apply appropriate techniques, resources, and modern engineering and IT tools, including prediction and modelling, to complex engineering problems with an understanding of the limitations; and
  12. Demonstrate knowledge and understanding of engineering management principles and economic decision-making and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments.

CHED Student Outcomes

  1. Apply knowledge of mathematics and science to solve complex mechanical engineering problems;
  2. Design and conduct experiments, as well as to analyze and interpret data;
  3. Design a system, component, or process to meet desired needs within realistic constraints, in accordance with standards;
  4. Function in multidisciplinary and multicultural teams;
  5. Identify, formulate, and solve complex mechanical engineering problems;
  6. Understand professional and ethical responsibility;
  7. Communicate effectively in mechanical engineering activities with the engineering community and with society at large;
  8. Understand the impact of mechanical engineering solutions in global, economic, environmental, and societal context;
  9. Recognize the need for, and engage in life-long learning;
  10. Know contemporary issues;
  11. Use techniques, skills, and modern engineering tools necessary for mechanical engineering practice;
  12. Know and understand engineering and management principles as a member and leader of a team, and to manage projects in a multidisciplinary environment; and
  13. Understand at least one specialized field of mechanical engineering practice.

BATSTATEU Student Outcomes

  1. Ability to apply mathematics, sciences and principles of engineering to solve complex mechanical engineering problems;
  2. Ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to draw conclusions;
  3. Design solution, system, components, processes, exhibiting improvements/innovations, that meet specified needs with appropriate consideration for public health and safety, cultural, societal, economical, ethical, environmental and sustainability issues;
  4. Function effectively as a member of a leader on a diverse team whose members together provide leadership, create a collaborative and inclusive environment, establish goals, plan tasks, and meet objectives;
  5. Identify, formulate, and solve complex mechanical engineering problems by applying principles of engineering, science, and mathematics;
  6. Apply ethical principles and professional responsibilities in engineering situations and make informed judgments, which must consider the impact of mechanical engineering solutions in global, environmental, and societal contexts;
  7. Communicate effectively on complex mechanical engineering activities with the community, and the society at large, such as being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions;
  8. Recognize the impact of professional engineering solutions in societal, global, and environmental contexts and demonstrate knowledge of and need for sustainable development;
  9. Recognize the need for, and ability to engage in independent and life-long learning in the broadest context of technological change;
  10. Apply reasoning based on contextual knowledge to assess societal, health, safety, legal, cultural, contemporary issues, and the consequent responsibilities relevant to professional engineering practices;
  11. Apply appropriate techniques, skills, and modern engineering and IT tools to complex mechanical engineering activities;
  12. Demonstrate knowledge and understanding of engineering management and financial principles as member or a leader of a team to manage projects in multidisciplinary settings, and identify opportunities of entrepreneurship; and
  13. Apply acquired engineering knowledge and skills in addressing community problems that contributes to national development.

Institutional Graduates Attributes

The IGAs are the qualities, skills and knowledge that the BatStateU community agrees its students should develop during the duration of their studies in Batangas State University. These graduate attributes outline the key competencies that will be developed by students.

IGA1: Knowledge Competence. Demonstrate a mastery of the fundamental knowledge and skills required for functioning effectively as a professional in the discipline, and an ability to integrate and apply them effectively to practice in the workplace.

IGA2: Creativity and Innovation. Experiment with new approaches, challenge existing knowledge boundaries and design novel solutions to solve problems.

IGA3: Critical and Systems Thinking. Identify, define, and deal with complex problems pertinent to the future professional practice or daily life through logical, analytical and critical thinking.

IGA4: Communication. Communicate effectively (both orally and in writing) with a wide range of audiences, across a range of professional and personal contexts, in English and Pilipino.

IGA5: Lifelong Learning. Identify own learning needs for professional or personal development; demonstrate an eagerness to take up opportunities for learning new things as well as the ability to learn effectively on their own.

IGA6: Leadership, Teamwork, and Interpersonal Skills. Function effectively both as a leader and as a member of a team; motivate and lead a team to work towards goal; work collaboratively with other team members; as well as connect and interact socially and effectively with diverse culture.

IGA7: Global Outlook. Demonstrate an awareness and understanding of global issues and willingness to work, interact effectively and show sensitivity to cultural diversity.

IGA8: Social and National Responsibility. Demonstrate an awareness of their social and national responsibility; engage in activities that contribute to the betterment of the society; and behave ethically and responsibly in social, professional and work environments.

Curriculum

Mechanical Engineering is a profession that concerns itself with mechanical design, energy conversion, fuel and combustion technologies, heat transfer, materials, noise control, and acoustics, manufacturing processes, rail transport, automatic control, product safety and reliability, solar energy, and technological impacts to society.

Classification / Field / Course No. of Hours/Week Credit Units
Lab Lec
I. TECHNICAL COURSES
A. Mathematics 15 0 15
B. Natural and Physical Sciences 8 9 11
C. Basic Engineering Science 19 12 23
D. Allied Courses 6 9 9
E. Professional Courses
1. Core Courses 57 60 77
2. Core Courses 320 hrs 4
3. Electives 4 0 4
TOTAL TECHNICAL COURSES 109 90 143
II. NON-TECHNICAL COURSES
A. General Education Courses 24 0 24
B. Filipino/Literature/Mandated Courses 12 0 12
C. Physical Education 8 0 8
D. NSTP 6 0 6
TOTAL NON-TECHNICAL COURSES 50 0 50
GRAND TOTAL 159 90 193

Enrollment Records

Academic Year 2016 – 2017 2017 – 2018 2018 – 2019 2019 – 2020 2020 – 2021 2021 – 2022 2022 – 2023
First Semester 862 1081 1172 1484 1583 1964 2205
Second Semester 800 992 1129 1278 1492 1941
Midterm 509 688 706 726 880 1192

Graduation Records

2016 – 2017 2017 – 2018 2018 – 2019 2019 – 2020 2020 – 2021 2021 – 2022*
153 234 174 304 269 81
 * Not including yet Midterm Graduates

Board Examination Performance

Date of Examination First Timers Repeaters No. of Examinees No. of Passers BatStateU
Passing Percentage
First Timer National
Passing Percentage
National
Passing Percentage
First Timer Percentage
vs National Passing
Rank in
Top Performing Schools
Passed Failed Taker Passed Failed Taker First Timers Repeaters Overall
March 2022 153 18 171 4 1 5 176 157 89.47% 80.00% 89.20% 60.26% 56.11% 59.46% 2nd
February 2020 174 14 188 0 0 0 188 174 92.55% 0.00% 92.55% 51.27% 38.45% 140.71% 1st
August 2019 71 0 71 10 0 10 81 81 100.00% 100.00% 100.00% 76.47% 70.65% 41.54% 1st
February 2019 112 10 122 7 3 10 132 119 91.80% 70.00% 90.15% 61.53% 50.49% 81.82% 1st
August 2018 63 11 74 1 0 1 75 64 85.14% 100.00% 85.33% 66.46% 60.82% 39.98% 6th
February 2018 113 1 114 4 0 4 118 117 99.12% 100.00% 99.15% 64.71% 47.05% 110.68% 1st
September 2017 42 5 47 1 0 1 48 43 89.36% 100.00% 89.58% 73.05% 69.01% 29.49%
March 2017 131 1 132 1 0 1 133 132 99.24% 100.00% 99.25% 72.40% 56.88% 74.48% 1st
September 2016 93 1 94 2 0 2 96 95 98.94% 100.00% 98.96% 73.07% 69.57% 42.21% 2nd
March 2016 56 1 57 3 1 4 61 59 98.25% 75.00% 96.72% 69.91% 55.32% 77.60% 1st
September 2015 63 4 67 0 0 0 67 63 94.03% 0.00% 94.03% 58.91% 55.25% 70.19% 2nd
March 2015 84 0 84 0 0 0 84 84 100.00% 0.00% 100.00% 72.74% 59.26% 68.75% 1st
October 2014 82 1 83 1 0 1 84 83 98.80% 100.00% 98.81% 82.42% 77.06% 28.21% 1st
March 2014 86 1 87 0 0 0 87 86 98.85% 0.00% 98.85% 73.87% 60.53% 63.31% 1st
September 2013 74 0 74 2 0 2 76 76 100.00% 100.00% 100.00% 74.28% 68.87% 45.20% 1st
March 2013 56 4 60 1 1 2 62 57 93.33% 50.00% 91.94% 54.77% 70.41% 1st
September 2012 97.73% 69.86% 1st
March 2012 98.39% 59.69% 1st
September 2011 96.15% 67.09% 2nd
January 2011 97.22% 53.93% 1st

Contact Details

Office Location: College of Engineering, Architecture and Fine Arts CEAFA Building, Batangas State University, Alangilan Campus, Golden Country Homes Subdivision
Email: mepete.ceafa@g.batstate-u.edu.ph
Telephone: (043) 980-0385 local 2121/0118