Students from all curriculua must have studied higher level Physics, Chemistry and Maths. A minimum 50% aggregate in CBSE grades X & XII with a minimum of 60% in PCM, or the equivalent from alternative schools, is required.
Fees per year
AED 45 000
Mechanical Engineering is one of the largest, oldest and broadest branches of Engineering. It has remained in the highest demand and is predicted to continue to grow as a profession. The total number of mechanical engineering jobs is projected to grow by 16% over the next decade in the US.
At Amity University Dubai, students study both the fundamentals of mechanical engineering as well as gaining practical knowledge of concepts and their applications in our state-of-the-art laboratories, which are equipped with the latest versions of the machinery used throughout the industry.
According to Engineering UK’s report, ‘The State of Engineering 2015’, the UK will need to have recruited 1.82 million people with mechanical engineering skills from 2012 – 2022, and with only 100 000 people being recruited a year, the sector is falling far short.
Students and faculty members are involved in various professional society activities associated with Mechanical Engineering. The departments are now successfully affiliated to five professional societies:
To provide education at undergraduate level in Mechanical Engineering and in the futuristic and emerging frontier areas of knowledge, learning and research and to develop the overall personality of students by making them not only excellent engineering professionals and technocrats but also good individuals, with understanding and regards for human values, pride in their heritage and culture, a sense of right and wrong and yearning for perfection and imbibe attributes of courage of conviction and action.
The Mechanical Engineering workshop has five different sections, namely the Machines shop, Welding shop, Foundry shop, Sheet metal shop and Fitting shop. Amity students use the lab to gain expertise in the usage of machines, equipment, tools and measuring instruments.
The Machine shop includes lathe machines, a radial drilling machine, milling machine, shaping machine, grinding machine and Computer Numerical Control (CNC) Lathe.
The Welding shop has Tungsten Inert Gas (TIG) Welding, Metal Inert Gas (MIG) Welding, Oxy-Acetylene gas welding and Arc Welding.
All the latest tools and equipment required for mould preparation for foundry, sheet metal work and fitting work are available in the workshop.
You’ll also find experimental setups for the Engineering Mechanics Lab to study the principles of mechanics.
Our Heat Transfer laboratory provides fundamental and industrial knowledge about modes of heat transfer, like conduction, convection and radiation, and their applications.
Kinematics of machine lab provides the practical knowledge about various mechanisms and their applications. Student will go explore various experiments of different mechanism like cam-follower mechanism, gears and gear train.Read Less >>
A graduate in Mechanical Engineering has opportunities in a variety of sectors such as fabrication and technical services, engineering and construction, rig repair, safety planning and procurement. Employment opportunities in product design, procurement, technical sales and management are also high.
Students will acquire analytical skills, knowledge of Mechanical Engineering, design and domain tools in order to contribute to the technological and economic development of society.
Students will gain the knowledge and skills needed to identify, formulate, analyse and solve Mechanical Engineering problems.
Students will learn how to work within a team, be a leader and effectively communicate in order to conduct themselves in an ethical manner as a responsible professional with a keen focus on society and the environment.
Students will learn how to advance their careers by means of professional workshops and seminars.
Students will be motivated to pursue higher education, research and development, innovation and other creative activities in Mechanical Engineering.
Students will be equipped to practice and manage Mechanical Engineering design projects and finances, individually or within a team.
Successful students will be able to apply their knowledge of mathematics, science, engineering fundamentals, as well as domain knowledge of Mechanical Engineering to solve complex engineering problems.
Graduates will design solutions for complex engineering problems and design system components or processes with consideration for public health and safety, cultural aspects, society as well as the environment.
Students will be able to create, select, and apply appropriate techniques, resources, and modern engineering and IT tools, including prediction and modeling, solve complex engineering activities.
Students will be able to provide valid conclusions by means of research-based knowledge, research methods, analysis and the interpretation of data.
Each student will be able to effectively communicate complex engineering activities with the engineering community and society, by means of reports, design documentation, effective presentations, and give and receive clear instructions.
Students will be able to perform as an individual, a leader or as a member of a team in a multidisciplinary settings.
Every student will be able to apply reasoning informed by contextual knowledge to assess societal, health, safety, legal and cultural issues and the responsibilities relevant to the engineering.
Students will understand the importance of adhering to the professional ethical principles and responsibilities of engineering.
All students will thoroughly understand the impact of engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development.
Students will be able to explain complex engineering issues to the community by means of written, verbal and visual communication.
Every graduate will be able to identify, formulate and solve complex engineering problems and reach substantiated conclusions.