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Bachelor of Technology (Mechanical Engineering)

program-details

School of Engineering and Technology, CT University offers 4 years Bachelor of Technology in Mechanical Engineering Programme. It provides rigorous foundations of core Mechanical Engineering, combination of theoretical core concepts with practical training in labs and on software tools equips the students to be industry ready. The curriculum includes professional training and certification offered by top leading industry. Objective of this programme is to compete with well-established academic institutions in India and abroad.

Industry Immersion

To impart students with a scholastic environment that develops brilliance and leadership required for a successful career.

eligibility criteria

Passed 10+2 examination with Physics/ Mathematics / Chemistry/ Computer Science/Electronics/ Information Technology/ Biology/ Informatics Practices/ Biotechnology/ Technical Vocational subject/ Agriculture/ Engineering Graphics/ Business Studies/ Entrepreneurship with atleast 50% marks
OR
Passed min. 3 years Diploma examination with at least 45% marks (40% marks in case of candidates belonging to reserved category) subject to vacancies in the First Year, in case the vacancies at lateral entry are exhausted.
(The Universities will offer suitable bridge courses such as Mathematics, Physics, Engineering drawing, etc., for the students coming from diverse backgrounds to prepare Level playing field and desired learning outcomes of the programme) 

Admission criteria

Merit in CT-SET, subject to fulfilling eligibility criteria.

fees

Details

Amount

Programme Fees

45000

Examination Fees

2500

International Programme Fees

$4300

Programme Outcomes

  • Engineering Knowledge - Apply mathematics, science, engineering fundamentals, and specialized knowledge to solve complex engineering problems.
  • Problem Analysis - Identify, formulate, and analyze complex engineering problems by conducting research and reaching well-supported conclusions using fundamental principles of mathematics, natural sciences, and engineering sciences.
  • Design and Development of Solutions - Design solutions and develop system components or processes that meet specified requirements while considering public health, safety, and the cultural, societal, and environmental aspects.
  • Investigation of Complex Problems - Utilize research-based knowledge and methods, including experimental design, data analysis, and synthesis, to investigate complex engineering problems and draw valid conclusions.
  • Modern Tool Usage - Employ appropriate techniques, resources, and modern engineering and IT tools, including predictive modeling, for complex engineering activities while understanding their limitations.
  • Engineering and Society - Apply contextual knowledge to assess societal, health, safety, legal, and cultural issues related to professional engineering practice and act responsibly accordingly.
  • Environment and Sustainability - Understand the impact of engineering solutions in societal and environmental contexts, and demonstrate knowledge of sustainable development principles.
  • Ethics - Apply ethical principles, adhere to professional ethics and responsibilities, and comply with engineering practice norms.
  • Individual and Teamwork - Work effectively as an individual and as a member or leader in diverse teams and multidisciplinary settings.
  • Communication - Communicate effectively about complex engineering activities with the engineering community and society at large, including writing reports, creating design documentation, making presentations, and providing clear instructions.
  • Project Management and Finance - Demonstrate knowledge of engineering and management principles, apply them in one's work as a team member or leader, and efficiently manage projects considering economic and financial factors in various disciplines and multidisciplinary environments.
  • Life-long Learning - Recognize the importance of independent and life-long learning, and possess the preparation and ability to engage in continuous learning to adapt to technological changes in a broader context.

Programme Specific Outcomes

  • Ability to design using Design of Machine Elements theories and create prototypes using relevant manufacturing technology.
  • Capability of building efficient energy conversion systems by applying basic understanding of Thermodynamics, Heat transfer, and Fluid Mechanics.
  • Demonstrate the ability to propose cost-effective optimized solutions using simulated environments of Computer-Aided Design (CAD), Computer-Aided Manufacturing (CAM), and Computer-Aided Engineering (CAE).
  • Effectively build and communicate solutions by utilizing knowledge from basic mechanical engineering, basic sciences, mathematics, and computational skills and tools.

Salient Features

  • To prepare students to excel in Mechanical Engineering and its application to real-life problems to succeed in industry/technical profession.
  • To provide students with a solid foundation in engineering and its basic principles, along with trending computing fundamentals and techniques required to solve related problems. This will also prepare them to pursue higher studies and research.
  • To inculcate students with a professional and ethical attitude, effective communication skills, a multidisciplinary approach, and the ability to relate computing issues to a broader social context.
  • To provide students with an academic environment that promotes excellence, leadership, and continuous learning. This includes staying updated on technology and trends needed for a successful career.

How To Apply