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Undergraduate Program

Mechanical Engineering

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OverView

The Mechanical Engineering program at Amrita Sai Institute of Science and Technology focuses on the analysis, design, and development of mechanical systems that support modern industry. The curriculum covers core areas such as mechanics, machine design, thermodynamics, manufacturing processes, and system dynamics. Through structured coursework, laboratory practice, and guided projects, students develop strong analytical ability and practical competence to work across automotive, manufacturing, aerospace, and emerging technology sectors.

Academic Outcomes

Program Educational Objectives (PEOs)
  • PEO 1
    Graduates will demonstrate strong foundations in basic sciences, engineering principles, and core mechanical engineering disciplines.
  • PEO 2
    Graduates will apply industry-relevant technical skills to succeed in entry-level engineering roles or pursue higher education.
  • PEO 3
    Graduates will communicate effectively, work collaboratively, and act responsibly with social and professional awareness.
  • PO1 – Engineering Knowledge
    Apply mathematics, science, and mechanical engineering fundamentals to solve engineering problems.
  • PO2 – Experimentation and Analysis
    Design and conduct experiments, analyse data, and interpret results using engineering methods.
  • PO3 – System and Component Design
    Design mechanical systems, components, and processes considering safety, manufacturability, and environmental constraints.
  • PO4 – Individual and Teamwork
    Function effectively as an individual, team member, or leader in multidisciplinary environments.
  • PO5 – Problem Solving
    Identify, formulate, and solve mechanical engineering problems using analytical approaches.
  • PO6 – Professional Ethics
    Apply ethical principles and commit to professional and social responsibilities.
  • PO7 – Communication Skills
    Communicate effectively through written, oral, and graphical forms.
  • PO8 – Sustainability Awareness
    Understand the environmental and societal impact of engineering solutions and promote sustainable practices.
  • PO9 – Lifelong Learning
    Recognise the need for continuous learning to adapt to technological advancements.
  • PO10 – Modern Tool Usage
    Use modern engineering tools and techniques with an understanding of their limitations.
  • PO11 – Engineering Management
    Apply basic management principles in planning and executing engineering tasks and projects.
  • PSO 1
    Apply mechanical engineering principles in areas such as design, analysis, and manufacturing systems.
  • PSO 2
    Develop practical solutions to mechanical engineering problems using modern tools and professional practices.

Curriculum Design

A curriculum structured to balance mechanical fundamentals with applied engineering practice.
  • Strong focus on mechanics, machine design, thermodynamics, and manufacturing processes
  • Integration of laboratory work, simulations, and design-based projects
  • Curriculum flexibility supported through academic autonomy
View Syllabus

Program Strengths

  • Well-equipped laboratories supporting core mechanical engineering experiments
  • Faculty guidance focused on analysis, design, and documentation skills
  • Emphasis on communication, teamwork, and professional readiness
  • Exposure to interdisciplinary applications and emerging technologies
  • Support for student participation in projects and technical activities

Why This Program Works

This program is suited for students interested in understanding and designing mechanical systems that power modern industries. Learning is structured around strong fundamentals, applied laboratory exposure, and guided instruction. Students develop analytical thinking, design capability, and adaptability required to work across manufacturing, automotive, aerospace, and emerging technology-driven professional environments.

Overview

The Mechanical Engineering program at Amrita Sai Institute of Science and Technology focuses on the analysis, design, and development of mechanical systems that support modern industry. The curriculum covers core areas such as mechanics, machine design, thermodynamics, manufacturing processes, and system dynamics. Through structured coursework, laboratory practice, and guided projects, students develop strong analytical ability and practical competence to work across automotive, manufacturing, aerospace, and emerging technology sectors.

Academic Outcomes

Program Educational Objectives (PEOs)
  • PEO 1
    Graduates will demonstrate strong foundations in basic sciences, engineering principles, and core mechanical engineering disciplines.
  • PEO 2
    Graduates will apply industry-relevant technical skills to succeed in entry-level engineering roles or pursue higher education.
  • PEO 3
    Graduates will communicate effectively, work collaboratively, and act responsibly with social and professional awareness.
  • PO1 – Engineering Knowledge
    Apply mathematics, science, and mechanical engineering fundamentals to solve engineering problems.
  • PO2 – Experimentation and Analysis
    Design and conduct experiments, analyse data, and interpret results using engineering methods.
  • PO3 – System and Component Design
    Design mechanical systems, components, and processes considering safety, manufacturability, and environmental constraints.
  • PO4 – Individual and Teamwork
    Function effectively as an individual, team member, or leader in multidisciplinary environments.
  • PO5 – Problem Solving
    Identify, formulate, and solve mechanical engineering problems using analytical approaches.
  • PO6 – Professional Ethics
    Apply ethical principles and commit to professional and social responsibilities.
  • PO7 – Communication Skills
    Communicate effectively through written, oral, and graphical forms.
  • PO8 – Sustainability Awareness
    Understand the environmental and societal impact of engineering solutions and promote sustainable practices.
  • PO9 – Lifelong Learning
    Recognise the need for continuous learning to adapt to technological advancements.
  • PO10 – Modern Tool Usage
    Use modern engineering tools and techniques with an understanding of their limitations.
  • PO11 – Engineering Management
    Apply basic management principles in planning and executing engineering tasks and projects.
  • PSO 1
    Apply mechanical engineering principles in areas such as design, analysis, and manufacturing systems.
  • PSO 2
    Develop practical solutions to mechanical engineering problems using modern tools and professional practices.

Curriculum Design

A curriculum structured to balance mechanical fundamentals with applied engineering practice.
  • Strong focus on mechanics, machine design, thermodynamics, and manufacturing processes
  • Integration of laboratory work, simulations, and design-based projects
  • Curriculum flexibility supported through academic autonomy
View Syllabus

Program Strengths

  • Well-equipped laboratories supporting core mechanical engineering experiments
  • Faculty guidance focused on analysis, design, and documentation skills
  • Emphasis on communication, teamwork, and professional readiness
  • Exposure to interdisciplinary applications and emerging technologies
  • Support for student participation in projects and technical activities

Why This Program Works

This program is suited for students interested in understanding and designing mechanical systems that power modern industries. Learning is structured around strong fundamentals, applied laboratory exposure, and guided instruction. Students develop analytical thinking, design capability, and adaptability required to work across manufacturing, automotive, aerospace, and emerging technology-driven professional environments.