The 4-year Graduate Honors in Mechanical Engineering program is a comprehensive undergraduate certificate that prepares students for a successful career in the field of mechanical engineering. This program combines theoretical knowledge with hands-on experience to build a strong foundation in mechanical engineering principles and practices.
Core Engineering Curriculum: Comprehensive coverage of core subjects including thermodynamics, fluid mechanics, mechanics of materials, machine design, and control systems.
Mathematics and Science: Develop a strong background in mathematics, physics, and chemistry to solve complex engineering problems.
Engineering Ethics and Sustainability: Explore the ethical and environmental aspects of engineering, emphasizing sustainable practices.
Team Projects: Collaborate with peers on engineering projects to develop teamwork and communication skills.
Capstone Project: Complete a capstone project that demonstrates your ability to solve complex engineering problems independently.
Industry-Relevant Skills: Graduates are well-prepared for careers in various sectors, including manufacturing, automotive, aerospace, energy, and more.
This Graduate program provides a strong foundation in mechanical engineering, enabling graduates to pursue diverse career paths, from design and analysis to research and development in the ever-evolving field of mechanical engineering.
Summary – Total Sem 6, Additional Specialization subject Learning – any 1 (Which will be accomodated in sem 5), Sem 6 is nothing but the project submission. Institute will be giving online learning for sem 1,2,3,4,5, and choosen specialized subjects.
Semester 1: Core Engineering Principles Engineering Mathematics I Introduction to Mechanical Engineering Mechanics and Dynamics Engineering Graphics and CAD
Semester 2: Materials and Thermodynamics Engineering Materials and Properties Thermodynamics and Heat Transfer Fluid Mechanics Computational Methods in Mechanical Engineering
Semester 3: Machine Analysis Strength of Materials Machine Design Dynamics of Machinery Engineering Vibration
Semester 4: Manufacturing and Automation Manufacturing Technology and Processes CNC Machining and Automation Quality Control and Six Sigma Control Systems Engineering
Semester 5: Advanced Mechanical Engineering Topics Advanced Thermal Systems Computational Fluid Dynamics (CFD) Advanced Topics in Materials Science Finite Element Analysis (FEA)
Semester 6: Capstone Project Apply knowledge and skills to a comprehensive engineering project Collaborate with industry partners (if possible) Present findings and solutions
Specializations (Choose one)
Track 1: Energy and Sustainability Renewable Energy Systems Energy Efficiency in Mechanical Systems Sustainable Design and Green Engineering Environmental Impact Assessment
Track 2: Automotive Engineering Automotive Design and Manufacturing Automotive Powertrains Vehicle Dynamics and Control Advanced Materials in Automotive Engineering
Track 3: Aerospace Engineering Aircraft Design and Aerodynamics Aerospace Materials and Manufacturing Aircraft Propulsion Systems Avionics and Flight Control Systems
Track 4: Robotics and Automation Robotics Fundamentals Industrial Automation and Control Mechatronics and IoT in Engineering AI and Machine Learning in Automation
These courses presents an optimal choice for individuals belonging to either of the following categories:
– Aspiring Mechanical Engineers professionals seeking to establish or advance their careers in the field.
– Individuals entrusted with Mechanical Engineering responsibilities who aspire to acquire a comprehensive and profound understanding of the subject matter.
By catering to these distinct groups, our courses effectively addresses the diverse needs and aspirations of professionals aiming to excel in the realm of Mechanical Engineering.
Educational Qualifications: Candidates should have completed their secondary education or its equivalent, such as a high school diploma or international equivalent. Programs conducted in English, proof of English language proficiency may be required.
Work Experience: Candidates are required to have a minimum of 2 years of full-time work experience in related field
The course assessment will be conducted through a series of 6 online examinations, scheduled at 60 days intervals. Each examination will have a duration of 3 hours.
The assessment format will consist of a combination of objective questions and descriptive questions.
This comprehensive evaluation methodology aims to assess students’ knowledge, understanding, and application of the course material, ensuring a rigorous and comprehensive assessment of their learning outcomes.
Ken Institute proudly holds full accreditation from esteemed organizations such as BAC UK (British Accreditation Council) and Quality Assurance in Pre-Tertiary and Higher Education-USA, validating our commitment to maintaining high standards of education. In addition, Ken Institute has earned prestigious institutional memberships from globally recognized bodies including the British Council (BSC), RoSPA (UK), the National Council (NSC), and the Institute of Engineers (IEI). These affiliations further underscore our dedication to promoting excellence and fostering professional development in the field.
The total course fee for the Diploma Program is $1,155 or INR 95,000, excluding taxes. Additionally, an 18% Goods and Services Tax (GST) will be applicable on the course fee.
Upon successful completion of this course, each student will acquire the following capabilities:
Eligible to enrol in Master’s Degree (M.S. or M.Eng.) in Mechanical Engineering or related field, Master of Business Administration (MBA), Specialized Certifications, International Opportunities, Online, Interdisciplinary Programs and Part-Time Programs etc