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The B.Tech in Mechanical Engineering program is designed to equip students with a solid foundation in the principles of mechanical engineering and its applications in modern industries. The program blends theoretical knowledge with practical skills, preparing students to meet the challenges of engineering design, manufacturing, thermal sciences, and emerging technologies like robotics, renewable energy, and AI in manufacturing.
Program Overview
The program focuses on the fundamentals of mechanics, thermodynamics, materials science, and manufacturing processes, complemented by advanced courses in robotics, CAD/CAM, and sustainable energy systems. With an emphasis on innovation, research, and industry exposure, the curriculum prepares students to thrive in diverse mechanical engineering roles and interdisciplinary domains.
Program Objectives
Technical Excellence: Develop expertise in the design, analysis, and manufacturing of mechanical systems and components.
Problem-Solving Skills: Enhance analytical and creative problem-solving abilities for real-world engineering challenges.
Sustainability and Ethics: Promote sustainable and ethical engineering practices for the betterment of society.
Lifelong Learning: Prepare students for advanced studies and professional development in the rapidly evolving field of mechanical engineering.
Program Structure
Core Areas
Basic Sciences and Mathematics
Engineering Mathematics
Physics and Chemistry for Engineers
Engineering Mechanics
Core Mechanical Engineering Courses
Strength of Materials
Thermodynamics
Fluid Mechanics and Hydraulic Machines
Machine Design
Manufacturing Technology
Heat Transfer
Dynamics of Machines
Mechatronics and Robotics
Specialized Electives
Renewable Energy Systems
Advanced Manufacturing Processes
Computational Fluid Dynamics (CFD)
Artificial Intelligence in Manufacturing
Automation and Control
Practical and Project Work
CAD/CAM Lab
Thermal Engineering Lab
Fluid Mechanics Lab
Capstone Design Projects
Laboratory Facilities
Thermal and Fluids Lab: Practical exposure to heat transfer, thermodynamics, and fluid mechanics experiments.
Manufacturing Technology Lab: Hands-on training in machining, welding, and 3D printing techniques.
Robotics and Automation Lab: Exploration of mechatronics, sensors, and automation technologies.
Materials Science Lab: Testing and analysis of material properties for engineering applications.
Skill Development
Technical Skills: Mastery of tools for design, analysis, and simulation like AutoCAD, SolidWorks, ANSYS, and MATLAB.
Soft Skills: Development of communication, leadership, and teamwork skills.
Problem-Solving: Analytical thinking and critical reasoning for engineering challenges.
Industry Exposure
Internships: Industrial training in leading manufacturing, automotive, and energy companies.
Industry Projects: Collaboration with industry experts for solving real-world problems.
Seminars and Workshops: Hands-on sessions on advanced manufacturing, renewable energy, and automation.
Career Opportunities
Graduates of the program can pursue roles in:
Automotive Engineering: Design and development of vehicles and components.
Manufacturing: Advanced production techniques and factory automation.
Thermal and Energy Systems: Power plant engineering, HVAC systems, and renewable energy.
Research and Development: Innovation in robotics, AI in engineering, and sustainable systems.
Public Sector: Roles in organizations like BHEL, ONGC, Indian Railways, and DRDO.
Higher Education and Certifications
Graduates are well-prepared for:
Master's programs in specialized areas like Robotics, Energy Systems, and Mechatronics.
Certifications in fields like Six Sigma, AutoCAD, SolidWorks, and Lean Manufacturing.
Emerging Technologies in the Curriculum
Robotics and Industrial Automation
Renewable and Sustainable Energy Systems
AI and Machine Learning in Mechanical Systems
Advanced Manufacturing with 3D Printing and Additive Manufacturing
Community Engagement
Students have opportunities to participate in social initiatives like rural electrification, promoting renewable energy solutions, and contributing to sustainable development projects.
Key Highlights
Hands-on Learning: State-of-the-art labs and live projects for practical exposure.
Global Exposure: Opportunities for internships and collaborations with international universities and industries.
Placement Support: Strong connections with top recruiters in manufacturing, automotive, and technology sectors.
Student Clubs: Active participation in robotics, SAE, and other mechanical engineering-related clubs.
Programme overview
Main Subject
Engineering - Mechanical
Degree
BTech
Study Level
Undergraduate
Study Mode
On Campus
The B.Tech in Mechanical Engineering program is designed to equip students with a solid foundation in the principles of mechanical engineering and its applications in modern industries. The program blends theoretical knowledge with practical skills, preparing students to meet the challenges of engineering design, manufacturing, thermal sciences, and emerging technologies like robotics, renewable energy, and AI in manufacturing.
Program Overview
The program focuses on the fundamentals of mechanics, thermodynamics, materials science, and manufacturing processes, complemented by advanced courses in robotics, CAD/CAM, and sustainable energy systems. With an emphasis on innovation, research, and industry exposure, the curriculum prepares students to thrive in diverse mechanical engineering roles and interdisciplinary domains.
Program Objectives
Technical Excellence: Develop expertise in the design, analysis, and manufacturing of mechanical systems and components.
Problem-Solving Skills: Enhance analytical and creative problem-solving abilities for real-world engineering challenges.
Sustainability and Ethics: Promote sustainable and ethical engineering practices for the betterment of society.
Lifelong Learning: Prepare students for advanced studies and professional development in the rapidly evolving field of mechanical engineering.
Program Structure
Core Areas
Basic Sciences and Mathematics
Engineering Mathematics
Physics and Chemistry for Engineers
Engineering Mechanics
Core Mechanical Engineering Courses
Strength of Materials
Thermodynamics
Fluid Mechanics and Hydraulic Machines
Machine Design
Manufacturing Technology
Heat Transfer
Dynamics of Machines
Mechatronics and Robotics
Specialized Electives
Renewable Energy Systems
Advanced Manufacturing Processes
Computational Fluid Dynamics (CFD)
Artificial Intelligence in Manufacturing
Automation and Control
Practical and Project Work
CAD/CAM Lab
Thermal Engineering Lab
Fluid Mechanics Lab
Capstone Design Projects
Laboratory Facilities
Thermal and Fluids Lab: Practical exposure to heat transfer, thermodynamics, and fluid mechanics experiments.
Manufacturing Technology Lab: Hands-on training in machining, welding, and 3D printing techniques.
Robotics and Automation Lab: Exploration of mechatronics, sensors, and automation technologies.
Materials Science Lab: Testing and analysis of material properties for engineering applications.
Skill Development
Technical Skills: Mastery of tools for design, analysis, and simulation like AutoCAD, SolidWorks, ANSYS, and MATLAB.
Soft Skills: Development of communication, leadership, and teamwork skills.
Problem-Solving: Analytical thinking and critical reasoning for engineering challenges.
Industry Exposure
Internships: Industrial training in leading manufacturing, automotive, and energy companies.
Industry Projects: Collaboration with industry experts for solving real-world problems.
Seminars and Workshops: Hands-on sessions on advanced manufacturing, renewable energy, and automation.
Career Opportunities
Graduates of the program can pursue roles in:
Automotive Engineering: Design and development of vehicles and components.
Manufacturing: Advanced production techniques and factory automation.
Thermal and Energy Systems: Power plant engineering, HVAC systems, and renewable energy.
Research and Development: Innovation in robotics, AI in engineering, and sustainable systems.
Public Sector: Roles in organizations like BHEL, ONGC, Indian Railways, and DRDO.
Higher Education and Certifications
Graduates are well-prepared for:
Master's programs in specialized areas like Robotics, Energy Systems, and Mechatronics.
Certifications in fields like Six Sigma, AutoCAD, SolidWorks, and Lean Manufacturing.
Emerging Technologies in the Curriculum
Robotics and Industrial Automation
Renewable and Sustainable Energy Systems
AI and Machine Learning in Mechanical Systems
Advanced Manufacturing with 3D Printing and Additive Manufacturing
Community Engagement
Students have opportunities to participate in social initiatives like rural electrification, promoting renewable energy solutions, and contributing to sustainable development projects.
Key Highlights
Hands-on Learning: State-of-the-art labs and live projects for practical exposure.
Global Exposure: Opportunities for internships and collaborations with international universities and industries.
Placement Support: Strong connections with top recruiters in manufacturing, automotive, and technology sectors.
Student Clubs: Active participation in robotics, SAE, and other mechanical engineering-related clubs.
Admission Requirements
5+
1. Academic Qualifications
· Educational Background : Applicants must have completed 10+2 (or equivalent) from a recognized board.
· Core Subjects : Physics, Chemistry, and Mathematics must be included in the 10+2 curriculum.
· Minimum Percentage : A minimum aggregate score 60% is required.
2. Entrance Exam
· Accepted Exams : A valid score in national or state-level entrance examinations such as JEE Main or other university-specific entrance tests is mandatory.
· Cut-Off Scores : Applicants must meet the cut-off criteria as determined by the institution for the respective entrance exam.
3. Age Criteria
· Candidates must typically be at least 17 years old at the time of admission.
· Upper age limits, if applicable, are outlined by the institution or exam authority.
4. Direct Admission Options
· Some institutions offer direct admission based on merit in 10+2 examinations or through management quota seats.
5 . Required Documents
· Completed application form
· 10th and 12th grade mark sheets and passing certificates
· Entrance exam scorecard
· Photo ID proof (e.g., Aadhaar Card, Passport)
· Passport-sized photographs
· Migration or transfer certificate (if applicable)
· English proficiency test scores (for international applicants)
6 . Additional Requirements (If Applicable)
· Reservation Criteria : Applicants eligible under reserved categories (SC/ST/OBC/PwD) may need to provide supporting certificates.
· Extracurricular Achievements : Certificates for achievements in extracurricular activities or sports may be required for special admission categories.
7 . Application Process
· Applications are usually submitted online.
· Candidates must ensure they meet all eligibility criteria and provide accurate documentation to avoid disqualification.
30 Jun 2024
4 Years
Jul
Domestic
50,000 INR
Domestic (Out of State)
50,000 INR
Scholarships
Selecting the right scholarship can be a daunting process. With countless options available, students often find themselves overwhelmed and confused. The decision can be especially stressful for those facing financial constraints or pursuing specific academic or career goals.
To help students navigate this challenging process, we recommend the following articles:
ME
48 monthsProgramme duration
30 Jun, 2024Application Deadline
Engineering - MechanicalMain Subject Area
Programme overview
Main Subject
Engineering - Mechanical
Degree
BTech
Study Level
Undergraduate
Study Mode
On Campus
The B.Tech in Mechanical Engineering program is designed to equip students with a solid foundation in the principles of mechanical engineering and its applications in modern industries. The program blends theoretical knowledge with practical skills, preparing students to meet the challenges of engineering design, manufacturing, thermal sciences, and emerging technologies like robotics, renewable energy, and AI in manufacturing.
Program Overview
The program focuses on the fundamentals of mechanics, thermodynamics, materials science, and manufacturing processes, complemented by advanced courses in robotics, CAD/CAM, and sustainable energy systems. With an emphasis on innovation, research, and industry exposure, the curriculum prepares students to thrive in diverse mechanical engineering roles and interdisciplinary domains.
Program Objectives
Technical Excellence: Develop expertise in the design, analysis, and manufacturing of mechanical systems and components.
Problem-Solving Skills: Enhance analytical and creative problem-solving abilities for real-world engineering challenges.
Sustainability and Ethics: Promote sustainable and ethical engineering practices for the betterment of society.
Lifelong Learning: Prepare students for advanced studies and professional development in the rapidly evolving field of mechanical engineering.
Program Structure
Core Areas
Basic Sciences and Mathematics
Engineering Mathematics
Physics and Chemistry for Engineers
Engineering Mechanics
Core Mechanical Engineering Courses
Strength of Materials
Thermodynamics
Fluid Mechanics and Hydraulic Machines
Machine Design
Manufacturing Technology
Heat Transfer
Dynamics of Machines
Mechatronics and Robotics
Specialized Electives
Renewable Energy Systems
Advanced Manufacturing Processes
Computational Fluid Dynamics (CFD)
Artificial Intelligence in Manufacturing
Automation and Control
Practical and Project Work
CAD/CAM Lab
Thermal Engineering Lab
Fluid Mechanics Lab
Capstone Design Projects
Laboratory Facilities
Thermal and Fluids Lab: Practical exposure to heat transfer, thermodynamics, and fluid mechanics experiments.
Manufacturing Technology Lab: Hands-on training in machining, welding, and 3D printing techniques.
Robotics and Automation Lab: Exploration of mechatronics, sensors, and automation technologies.
Materials Science Lab: Testing and analysis of material properties for engineering applications.
Skill Development
Technical Skills: Mastery of tools for design, analysis, and simulation like AutoCAD, SolidWorks, ANSYS, and MATLAB.
Soft Skills: Development of communication, leadership, and teamwork skills.
Problem-Solving: Analytical thinking and critical reasoning for engineering challenges.
Industry Exposure
Internships: Industrial training in leading manufacturing, automotive, and energy companies.
Industry Projects: Collaboration with industry experts for solving real-world problems.
Seminars and Workshops: Hands-on sessions on advanced manufacturing, renewable energy, and automation.
Career Opportunities
Graduates of the program can pursue roles in:
Automotive Engineering: Design and development of vehicles and components.
Manufacturing: Advanced production techniques and factory automation.
Thermal and Energy Systems: Power plant engineering, HVAC systems, and renewable energy.
Research and Development: Innovation in robotics, AI in engineering, and sustainable systems.
Public Sector: Roles in organizations like BHEL, ONGC, Indian Railways, and DRDO.
Higher Education and Certifications
Graduates are well-prepared for:
Master's programs in specialized areas like Robotics, Energy Systems, and Mechatronics.
Certifications in fields like Six Sigma, AutoCAD, SolidWorks, and Lean Manufacturing.
Emerging Technologies in the Curriculum
Robotics and Industrial Automation
Renewable and Sustainable Energy Systems
AI and Machine Learning in Mechanical Systems
Advanced Manufacturing with 3D Printing and Additive Manufacturing
Community Engagement
Students have opportunities to participate in social initiatives like rural electrification, promoting renewable energy solutions, and contributing to sustainable development projects.
Key Highlights
Hands-on Learning: State-of-the-art labs and live projects for practical exposure.
Global Exposure: Opportunities for internships and collaborations with international universities and industries.
Placement Support: Strong connections with top recruiters in manufacturing, automotive, and technology sectors.
Student Clubs: Active participation in robotics, SAE, and other mechanical engineering-related clubs.
Programme overview
Main Subject
Engineering - Mechanical
Degree
BTech
Study Level
Undergraduate
Study Mode
On Campus
The B.Tech in Mechanical Engineering program is designed to equip students with a solid foundation in the principles of mechanical engineering and its applications in modern industries. The program blends theoretical knowledge with practical skills, preparing students to meet the challenges of engineering design, manufacturing, thermal sciences, and emerging technologies like robotics, renewable energy, and AI in manufacturing.
Program Overview
The program focuses on the fundamentals of mechanics, thermodynamics, materials science, and manufacturing processes, complemented by advanced courses in robotics, CAD/CAM, and sustainable energy systems. With an emphasis on innovation, research, and industry exposure, the curriculum prepares students to thrive in diverse mechanical engineering roles and interdisciplinary domains.
Program Objectives
Technical Excellence: Develop expertise in the design, analysis, and manufacturing of mechanical systems and components.
Problem-Solving Skills: Enhance analytical and creative problem-solving abilities for real-world engineering challenges.
Sustainability and Ethics: Promote sustainable and ethical engineering practices for the betterment of society.
Lifelong Learning: Prepare students for advanced studies and professional development in the rapidly evolving field of mechanical engineering.
Program Structure
Core Areas
Basic Sciences and Mathematics
Engineering Mathematics
Physics and Chemistry for Engineers
Engineering Mechanics
Core Mechanical Engineering Courses
Strength of Materials
Thermodynamics
Fluid Mechanics and Hydraulic Machines
Machine Design
Manufacturing Technology
Heat Transfer
Dynamics of Machines
Mechatronics and Robotics
Specialized Electives
Renewable Energy Systems
Advanced Manufacturing Processes
Computational Fluid Dynamics (CFD)
Artificial Intelligence in Manufacturing
Automation and Control
Practical and Project Work
CAD/CAM Lab
Thermal Engineering Lab
Fluid Mechanics Lab
Capstone Design Projects
Laboratory Facilities
Thermal and Fluids Lab: Practical exposure to heat transfer, thermodynamics, and fluid mechanics experiments.
Manufacturing Technology Lab: Hands-on training in machining, welding, and 3D printing techniques.
Robotics and Automation Lab: Exploration of mechatronics, sensors, and automation technologies.
Materials Science Lab: Testing and analysis of material properties for engineering applications.
Skill Development
Technical Skills: Mastery of tools for design, analysis, and simulation like AutoCAD, SolidWorks, ANSYS, and MATLAB.
Soft Skills: Development of communication, leadership, and teamwork skills.
Problem-Solving: Analytical thinking and critical reasoning for engineering challenges.
Industry Exposure
Internships: Industrial training in leading manufacturing, automotive, and energy companies.
Industry Projects: Collaboration with industry experts for solving real-world problems.
Seminars and Workshops: Hands-on sessions on advanced manufacturing, renewable energy, and automation.
Career Opportunities
Graduates of the program can pursue roles in:
Automotive Engineering: Design and development of vehicles and components.
Manufacturing: Advanced production techniques and factory automation.
Thermal and Energy Systems: Power plant engineering, HVAC systems, and renewable energy.
Research and Development: Innovation in robotics, AI in engineering, and sustainable systems.
Public Sector: Roles in organizations like BHEL, ONGC, Indian Railways, and DRDO.
Higher Education and Certifications
Graduates are well-prepared for:
Master's programs in specialized areas like Robotics, Energy Systems, and Mechatronics.
Certifications in fields like Six Sigma, AutoCAD, SolidWorks, and Lean Manufacturing.
Emerging Technologies in the Curriculum
Robotics and Industrial Automation
Renewable and Sustainable Energy Systems
AI and Machine Learning in Mechanical Systems
Advanced Manufacturing with 3D Printing and Additive Manufacturing
Community Engagement
Students have opportunities to participate in social initiatives like rural electrification, promoting renewable energy solutions, and contributing to sustainable development projects.
Key Highlights
Hands-on Learning: State-of-the-art labs and live projects for practical exposure.
Global Exposure: Opportunities for internships and collaborations with international universities and industries.
Placement Support: Strong connections with top recruiters in manufacturing, automotive, and technology sectors.
Student Clubs: Active participation in robotics, SAE, and other mechanical engineering-related clubs.
Admission Requirements
1. Academic Qualifications
· Educational Background : Applicants must have completed 10+2 (or equivalent) from a recognized board.
· Core Subjects : Physics, Chemistry, and Mathematics must be included in the 10+2 curriculum.
· Minimum Percentage : A minimum aggregate score 60% is required.
2. Entrance Exam
· Accepted Exams : A valid score in national or state-level entrance examinations such as JEE Main or other university-specific entrance tests is mandatory.
· Cut-Off Scores : Applicants must meet the cut-off criteria as determined by the institution for the respective entrance exam.
3. Age Criteria
· Candidates must typically be at least 17 years old at the time of admission.
· Upper age limits, if applicable, are outlined by the institution or exam authority.
4. Direct Admission Options
· Some institutions offer direct admission based on merit in 10+2 examinations or through management quota seats.
5 . Required Documents
· Completed application form
· 10th and 12th grade mark sheets and passing certificates
· Entrance exam scorecard
· Photo ID proof (e.g., Aadhaar Card, Passport)
· Passport-sized photographs
· Migration or transfer certificate (if applicable)
· English proficiency test scores (for international applicants)
6 . Additional Requirements (If Applicable)
· Reservation Criteria : Applicants eligible under reserved categories (SC/ST/OBC/PwD) may need to provide supporting certificates.
· Extracurricular Achievements : Certificates for achievements in extracurricular activities or sports may be required for special admission categories.
7 . Application Process
· Applications are usually submitted online.
· Candidates must ensure they meet all eligibility criteria and provide accurate documentation to avoid disqualification.
Domestic
Domestic (Out of State)
Scholarships
Selecting the right scholarship can be a daunting process. With countless options available, students often find themselves overwhelmed and confused. The decision can be especially stressful for those facing financial constraints or pursuing specific academic or career goals.
To help students navigate this challenging process, we recommend the following articles:
How to get a full scholarship
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Scholarships to study abroad
Find scholarships to study abroad with our lists of international scholarships – categorized by country, by subject, and by type of student.
Scholarship Applications: Frequently Asked Questions
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