Update on 15 Dec, 2022
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5 min read
M.E Course: A study in Masters's Engineering may lead your career in the fields of engineering from getting a job in cybersecurity, advanced medical treatments, entrepreneurship to space research.
➥ In this age of technological, scientific, and medical advancements from Tesla’s new electric car, smartwatches, smartphones, bionic eyes, google glass, and 3D printing to the reusable rockets made to colonize mars one day.
➥ We are surrounded by innovations and commercial changes and who is behind these great advancements! A great team of engineers.
➥ Engineers play an important part in any organization looking after efficiency or creating a better product through a creative, innovative, and engineering approach.
M.E Course Details |
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Full-Form |
Master’s of Engineering |
Course Duration |
2 Years |
Age limit |
No age limit |
Minimum percentage required |
50-60 % |
Subjects required |
Subjects corresponding to post-graduate |
Average ME course annual fees in India |
Rs 50,000 - 1.5 Lakh |
|
Structural Engineer, Software Developer, Assistant Professor - Postsecondary / Higher Education, Design Engineering Manager, Software Engineer, Senior Software Engineer Design Engineer, etc. |
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HCL Technologies Ltd., Tata Motors, Robert Bosch, Mahindra & Mahindra Ltd., Tata Consultancy Services Limited, General Electric Co (GE), L&T Limited, Honeywell Technology Solutions Inc, etc. |
In this article, we are providing all the details about the Masters of Engineering (ME), requirements, eligibility, syllabus, admission procedure, fees, career prospects, etc.
➥ Masters of Engineering (ME) is a two-year postgraduate program for individuals who have pursued a Bachelor of Engineering (BE) or other Bachelor’s degree in engineering. The course duration of a Master of Engineering is usually 1-2 years.
➥ It is academically equal to Master of Science and Master of Arts. Master of Engineering includes theoretical courses and assignments which mainly focus on developing the highly specialized skills and knowledge required for the students to become professional engineers in the required field.
➥ Many engineering programs require the students to go through the industrial experience and learn what it’s like to work in the Industrial environment. While graduating the students will have to complete a final year project which involves solving complex engineering problems.
In this course students will learn to develop and design engineering products that require prior knowledge of operating computers, having proficiency in the technical stuff.
➥ After the completion of the ME course, candidates can set a profitable career in many Private, Public, MNCs, Automotive, and Manufacturing industries, holding a senior-level position. It is considered to be the best master’s degree for engineers who possess innovative abilities and have a hunger to go for advanced study.
➥ The overall course aims to develop the students with leadership and analytical, designing skills which will further help them in their careers.
There are various colleges available for pursuing a master of engineering courses in India.
Here are some of the designations in which the candidates can pursue their careers after completing this course:-
The candidates must satisfy the following eligibility criteria before taking admission to the Masters of Engineering.
1. Age- There is no age bar for the candidates who aspire to pursue this program.
2. Education Qualification- The aspirants have to clear the Bachelor's degree in the same program with at least 50 % of the marks for being eligible.
3. The students should have all the necessary documents required during the time of admission.
The master of Engineering admission is done based on a merit list. The candidates who have been shortlisted after the entrance exam will have to go through a personal interview and group discussion which will be held by the respective colleges to check the credibility and competence of the students.
The syllabus of Masters of Engineering (ME) covers the subjects offered under this course including Mechanical Vibration, Instrumentation & Automatic Control, Advanced Fluid Mechanics, Measurement Techniques & Data Analysis, etc.
Here are the details of the syllabus which is divided into the four semesters of course prescribed by various universities/colleges
Semesters |
Subjects |
Semester 1 |
Mechanical Vibration |
Advanced Heat Transfer |
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Refrigeration & Air conditioning |
|
Finite Element Analysis |
|
Elective I |
|
Laboratory Practice I |
|
Seminar I |
|
Semester 2 |
Optimization Techniques |
Mechanical Design Analysis |
|
Instrumentation & Automatic Control |
|
Advanced Fluid Mechanics |
|
Elective II |
|
Laboratory Practice II |
|
Seminar II |
|
Elective I |
Advanced Machine Design |
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Measurement Techniques & Data Analysis |
|
Internal Combustion Engine |
|
Analysis & Synthesis of Mechanisms |
|
Computer-Aided Manufacturing |
|
Theory of Elasticity & Plasticity |
Elective II |
Advanced Robotics |
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Computational Fluid Dynamics |
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Process Equipment Design |
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Alternate Energy Sources |
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Design of Heat Exchanger |
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Design of Pumps & Compressors |
Semester III |
Seminar III |
Project Stage I |
|
Semester IV |
Progress Seminar IV |
Project Stage II |
Note: The subjects of Masters of Engineering can vary from institute to institute.
After pursuing the course successfully, one can get into the following job types:-
Below we have mentioned a few possible career paths for engineers:
Aerospace Engineer: Aerospace engineers design aircraft, spacecraft, missiles, and other air travel machines including satellites. This also includes assembling and testing aerospace products. A bachelor’s degree may help you to get an entry-level job in the field of aerospace engineering but having a master’s degree will get you a managerial role. The average annual salary of an aerospace engineer is estimated to be around $115,000.
Civil Engineer: The work of a civil engineer is to design and maintain the infrastructure. The responsibility may include designing roads, bridges, tunnels, or developing water and sewage systems, etc. Getting a master of Engineering will help a student get into senior or managerial roles. The average estimated annual salary of a Civil Engineer is $85,000.
Environmental Engineer: An environmental engineer tends to develop solutions for environmental problems like Waste, Pollution, Public health crises, and natural resources. An environmental engineer must combine the knowledge of biology and chemistry to develop action plans to solve the problems. These engineers must work alongside other engineers. The average annual salary of an environmental engineer is around $85,000.
Chemical Engineering: Chemical engineering uses the principles of chemistry, physics, mathematics, and biology to efficiently design, produce, use and transform energy and materials. Chemical engineers combine experimental and natural science with biology, biochemistry, or microbiology for the creation of products from raw materials using various industrial processes. Chemical engineers can be divided into two categories: One who works or establishes chemical or biological processes and one who focuses on developing new or adapted substances.
Health and Safety Engineer: Health and Safety engineering involves the design and implementation of systems that provide safety to humans and the environment. They ensure that any machine, structure, or furniture does not cause harm or damage to the property. The minimum requirement to become a safety engineer is a bachelor’s degree however getting a master’s degree will lead you to a managerial or senior role. The average annual salary of a Health and Safety Engineer is around $ 90,000.
Biomedical Engineering: This is a new field, a biomedical engineer merges engineering, biology, and medicine. This particular area is concerned with the research and development of new scientific and engineering solutions to clinical, biological, and medical problems.
Mechanical Engineering: Mechanical engineering is the study of design, construction, development, and testing of mechanical systems which includes tools, engines, machines and other mechanical stuff. MEchanical engineering aims to develop new technology to meet a wide range of human needs.
In this section, we are providing a brief description of how a Master of Engineering (ME) degree is different from a Master of Science degree. Both the degrees require 30-semester credits. Wherein, Master of engineering consists of Course work which consists of design and engineering projects. This degree also provides flexibility in coursework where a student may wish to take the projects out of the department. In the case of the Master of Science, it is more of a research-oriented degree.
The major difference between these two is the course duration. The master of Engineering is designed so that students can complete their course within 2 semesters. In the case of a Master of Science degree, a student will have to go through 4-6 semesters which typically takes up to 2 years.
Both the engineering and science graduates have equal opportunities and can obtain employment in government, private and public sectors.
A Master of Engineering (ME) is good for the students who are looking for technical experience and a Master of Science is good for the students who want to go for a PhD in the future.
The companies registered to take part in the recruitment process look specifically for the department that they want to hire for such as Mechanical Engineering, and Software Engineering. At first, companies may offer internships or provide full-time positions.
The level of skills does matter so chances of getting hired may get better if the student has mastered his skills.
Below we have mentioned salary differences for Master of Engineering (ME), Master of Science, and a bachelor of engineering:
➦ Electrical engineer average salary:
➦ Mechanical engineer average salary:
➦ Project engineer average salary:
➦ Senior software engineer average salary:
If you enjoy learning, you must pursue a master's degree. This will provide you with a break from your work life and may give you 2 years to learn something new or to be a student again.
A Bachelor of degree has become commonplace and if you want to stand out more, getting a master’s degree will definitely help, especially in the field of engineering. You can compare the statistics, a large no. of the population have a bachelor's degree as compared to a master’s degree. Of Course, skills do matter but having a high qualification will unlock the new doors of opportunities that a bachelor's degree lacks. So this is the context where the master’s degree standout.
Pursuing a master's program in the field of engineering is a good choice. After doing a master’s you will have a better portfolio. You can also go for development and research opportunities. Most of the big firms hire postgraduates. But getting a masters from a reputed institute is also important like IITs and IIITs.
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