Vision:

To be proficient in mechanical engineering and to nurture highly qualified and innovative mechanical engineers as well as entrepreneurs, who contribute enthusiastically to the technological and socio-economic advancement globally.

Mission:

M1 - Propagate quality education through strong fundamental concepts, analytical ability, and problem-solving skills to make engineers globally competitive.

M2 - Prepare students to be industry-ready and for higher studies in esteemed organizations/institutions.

M3 - Encourage students' social awareness and responsibility by executing technical knowledge.

Program Educational Objectives Statements:

PEO 1 - Acquire knowledge in mathematical, scientific & engineering fundamentals for a successful career in mechanical & interdisciplinary industries.

PEO 2 - Be resilient in the field of design, thermal, and manufacturing industries for solving industry & social-related problems.

PEO 3 - Inculcate & engage in lifelong learning with ethical & social responsibility.

Program Specific Outcomes:

PSO 1 - Implement advanced skills for design, analysis, and fabrication of components used in Mechanical Engineering.

PSO 2 - Identify local industrial problems and solve them using Mechanical Engineering technologies for better outcomes.

PSO 3 - Apply contextual knowledge of Mechanical Engineering to assess societal, environmental, health, and safety issues with professional ethics.

Program Outcomes (POs):

1. Basic and Discipline-specific knowledge:
          Apply knowledge of basic mathematics, science, and engineering fundamentals to solve engineering problems.
2. Problem analysis:
          Identify and analyze well-defined engineering problems using codified standard methods.
3. Design/development of solutions:
          Design solutions for well-defined technical problems and assist with the design of system components or processes.
4. Engineering Tools, Experimentation and Testing:
          Apply modern engineering tools to conduct standard tests and measurements.
5. Engineering practices for society, sustainability, and environment:
          Apply appropriate technology considering society, sustainability, and ethical practices.
6. Project Management:
          Use engineering management principles to manage projects and communicate effectively about engineering activities.
7. Life-long learning:
          Analyze individual needs and engage in updating knowledge in the context of technological changes.