Mechanical Engineering
Mechanical Engineering
Mechanical Engineering is a broad and versatile discipline that focuses on the design, analysis, manufacturing, and maintenance of mechanical systems. The program equips students with a strong foundation in core engineering principles such as mechanics, thermodynamics, materials science, and fluid dynamics, combined with practical training through laboratories, workshops, and projects. Emphasis is placed on innovation, problem-solving, and the application of modern engineering tools to address real-world challenges. Graduates are prepared for diverse career opportunities in industries including manufacturing, energy, automotive, aerospace, and robotics, as well as for higher studies and research. The department has modern laboratories developed and designed from the perspective of the latest requirements of industry and academia
SALIENT FEATURES
Department has signed some MOUs with reputed industries and institutions to enhance the collaborative efforts towards the knowledge exchange and societal benefits.
Focus on innovation, problem-solving, teamwork, and project-based learning.
Opportunities for research, higher studies, entrepreneurship, and participation in technical competitions.
Well-structured curriculum covering core areas such as Mechanics, Thermodynamics, Fluid Mechanics, Manufacturing Processes, and Design Engineering.
Vision
To be a center of excellence in Mechanical Engineering education by nurturing technically competent, innovative, and socially responsible engineers who can meet global industrial and societal challenges.
Mission
To provide strong theoretical knowledge and practical skills through a well-designed laboratory facilities.
To inculcate ethical values, teamwork, leadership, and commitment to sustainable development.
To prepare students for employment, higher education, and lifelong learning.
To impart strong fundamentals and practical knowledge in Mechanical Engineering.
Mechanical Engineering is a broad and versatile discipline that focuses on the design, analysis, manufacturing, and maintenance of mechanical systems. The program equips students with a strong foundation in core engineering principles such as mechanics, thermodynamics, materials science, and fluid dynamics, combined with practical training through laboratories, workshops, and projects. Emphasis is placed on innovation, problem-solving, and the application of modern engineering tools to address real-world challenges. Graduates are prepared for diverse career opportunities in industries including manufacturing, energy, automotive, aerospace, and robotics, as well as for higher studies and research. The department has modern laboratories developed and designed from the perspective of the latest requirements of industry and academia
SALIENT FEATURES
Department has signed some MOUs with reputed industries and institutions to enhance the collaborative efforts towards the knowledge exchange and societal benefits.
Focus on innovation, problem-solving, teamwork, and project-based learning.
Opportunities for research, higher studies, entrepreneurship, and participation in technical competitions.
Well-structured curriculum covering core areas such as Mechanics, Thermodynamics, Fluid Mechanics, Manufacturing Processes, and Design Engineering.
Vision
To be a center of excellence in Mechanical Engineering education by nurturing technically competent, innovative, and socially responsible engineers who can meet global industrial and societal challenges.
Mission
To provide strong theoretical knowledge and practical skills through a well-designed laboratory facilities.
To inculcate ethical values, teamwork, leadership, and commitment to sustainable development.
To prepare students for employment, higher education, and lifelong learning.
To impart strong fundamentals and practical knowledge in Mechanical Engineering.
Contact Us
For more details about the MECHANICAL ENGINEERING,
admission process, or career guidance,
reach out to Mr. Shivkant Sharma Department of MECHANICAL ENGINEERING.
Program Highlights Mechanical Engineering :
- Engineering Mechanics: Principles of statics and dynamics applied to mechanical systems.
- Thermodynamics: Study of energy and heat transfer in mechanical systems
- Fluid Mechanics: Principles governing the behavior of fluids and their applications.
- Material Science and Engineering: Understanding the properties and behavior of materials used in mechanical design.
- Manufacturing Processes: Techniques for shaping, joining, and finishing materials.
- Machine Design: Principles of designing mechanical components and systems.
- Heat Transfer: Study of the transfer of heat in various engineering applications.
- Dynamics of Machinery: Analysis of motion and forces in mechanical systems.
- Automobile Engineering: Principles of design and manufacturing of automobiles.
- Control Engineering: Basics of control systems applied to mechanical systems
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