PEOs and POS
Programme Educational Objectives (PEOs)
Graduates of the programme will:
PEO 1: Develop strong theoretical knowledge and practical expertise required for professional practice in mechanical engineering and related disciplines, as well as for pursuing higher studies.
PEO 2: Acquire the technical competence to analyze complex engineering problems and design effective mechanical systems and solutions.
PEO 3: Demonstrate professional responsibility, ethical conduct, teamwork skills, and a commitment to continuous learning while considering societal and environmental concerns.
Programme Outcomes (POs)
Graduates will be able to:
PSO 1: Apply mechanical engineering principles and physical sciences to model, analyze, design, and select appropriate materials and manufacturing processes for engineering products and systems during mini-projects and thesis work.
PSO 2: Gain practical exposure to modern technologies through industry-linked courses, in-plant training, internships, and an accelerated curriculum structure.
PSO 3: Develop critical thinking, teamwork, and entrepreneurial skills by participating in hackathons and hands-on research activities, enabling them to pursue startups or innovative ventures.
Programme Specific Outcomes (PSOs)
Graduates will be able to:
PO1 – Engineering Knowledge:
Apply principles of mathematics, science, and engineering fundamentals to solve complex mechanical engineering problems.
PO2 – Problem Analysis:
Identify and analyze engineering problems using first principles and research-based approaches to arrive at valid conclusions.
PO3 – Design and Development of Solutions:
Design mechanical systems and components that meet functional requirements while considering safety, societal needs, cultural aspects, and environmental sustainability.
PO4 – Investigation of Complex Problems:
Conduct experiments, analyze data, and interpret results to draw meaningful and reliable conclusions.
PO5 – Modern Tool Usage:
Select and utilize contemporary engineering and computational tools for modeling, simulation, and analysis, while understanding their limitations.
PO6 – Engineer and Society:
Assess the impact of engineering solutions on society, health, safety, legal, cultural, and environmental aspects.
PO7 – Ethics:
Uphold professional ethics, social responsibility, and inclusive practices in engineering activities.
PO8 – Individual and Teamwork:
Work effectively as an individual, team member, or leader in multidisciplinary environments.
PO9 – Communication:
Communicate engineering ideas clearly through reports, presentations, technical documentation, and interactions with diverse audiences.
PO10 – Project Management and Finance:
Apply engineering and management principles to plan, execute, and manage projects in multidisciplinary contexts.
PO11 – Lifelong Learning:
Recognize the importance of continuous learning and adapt to evolving technologies throughout professional life.