Mechanical engineering includes the design and development of mechanical structures. It uses the concepts of chemistry, physics, and materials science to do this. Mechanical engineers manufacture computers, bearing in mind the specification, testing and production of theoretical representation for the purposes of this experiment. Mechanical engineers are employed by the aerospace sector, construction firms, and other industrial sectors. There is also a huge variety of connected job profiles for mechanical engineers, including automation, aerospace engineers, controllers, instrumentation specialists, and maintenance specialists.
Eligibility criteria to become a Mechanical engineer
- Applicants were required to pass 10 + 2 from a known institution with PCM (Physics, Chemistry, and Mathematics) as main subjects.
- A minimum of 55 % marks in 10 + 2 or equivalent is compulsory (relaxation regulations extend to certain grades and vary from college to college) for students who wish to pursue and diploma courses in mechanical engineering.
- For admission to the M. Tech Mechanical Engineering program, applicants must have a certificate of qualification at a minimum of 50% in the specified area.
- The valid passing scorecard of each of the prescribed standardized tests is compulsory for admission to undergraduate, Certificate, Postgraduate and Ph.D. programs.
Subjects covered in the field of Mechanical engineering
- Statistics and Dynamics
- Power of materials and solid mechanics;
- Instrumentation and calculations
- Thermodynamics, heat transfer, conversion of electricity and HVAC
Types of job in Mechanical engineering
Once you have completed the requisite preparation to become a mechanical engineer, there is a range of profiles that you may pick up. Based on your preference and interest, you can choose a job profile that falls under the mechanical engineering umbrella. Since mechanical engineering is a wide area of operation, you can consider the following work opportunities.
Automotive Engineer: The design and production of vehicle-related mechanical parts and equipment is a feature of the automotive engineer. Automotive engineers typically work on research and production, architecture, and manufacturing.
Control and Instrumentation Engineer: also referred to as C&I Engineer, these are specialists engaged in the design, production, implementation, maintenance, and operation of equipment used for the operation and assessment of machines used in engineering work.
Nuclear Engineer: these engineers provide technical assistance to nuclear power stations. They are responsible for the planning, development, operation, or dismantling of nuclear power plant devices. Nuclear engineers can be reactor controllers, process engineers, safety engineers, project managers or instrumentation and control engineers.
Mechanical Engineer: a mainstream work profile for the design, manufacturing, development, maintenance, and management of different machines and equipment is protected by mechanical engineers. Job profiles for mechanical engineers vary from planning, manufacturing, review, and testing to construction, maintenance, and structural engineering.
Aerospace Engineer: is a profile that deals with the repair and manufacture of aircraft and airports, taking into account the technical issues involved.
Maintenance Engineer: the task of the maintenance engineer is to control the activity of the machinery and equipment. Maintenance engineers are employed to track the ongoing operation of the machines and facilities.
Automotive Engineer: The design and production of vehicle-related mechanical parts and equipment is a feature of the automotive engineer. Automotive engineers tend to focus on research and production, architecture and manufacturing.
Mechanical engineering is just as pleasant as the widest field of engineering, the positions given to professional mechanical engineers are in abundance and infinite. Industries such as vehicles, space science, biomechanical, aeronautical, etc. are continuously looking for mechanical engineers.
Research and Development (R&D): Engineers who carry out research and then prepare for future devices and their components.
Design: Practitioners responsible for drawing up scientific designs, either manually or with the aid of computers.
Production: Engineers who supervise the manufacture of mechanical parts and devices.
Research and testing: engineers who study and evaluate various types of devices and their components to ensure that they operate flawlessly.