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Electromechanical Engineer

Overview, Education, Careers Types, Skills, Career Path, Resources

Electromechanical Engineers design, develop, and test electrical and mechanical systems. They integrate both disciplines to create efficient and innovative solutions.

Average Salary

₹6,00,000

Growth

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Educational Requirements

Education Requirements for Electromechanical Engineering

To become a successful electromechanical engineer in India, a strong educational foundation is essential. Here's a breakdown of the typical educational path:

  • Bachelor's Degree: A Bachelor's degree in Electromechanical Engineering, Mechanical Engineering, Electrical Engineering, or a related field is the most common starting point. This usually takes four years to complete.

  • Core Coursework: Expect to study subjects like circuit analysis, thermodynamics, control systems, robotics, and computer-aided design (CAD).

  • Practical Experience: Internships or co-op programs are highly valuable. They provide hands-on experience and help you apply your theoretical knowledge to real-world problems.

  • Master's Degree (Optional): A Master's degree can provide more specialized knowledge and skills, making you a more competitive candidate for advanced roles. Specializations could include robotics, automation, or advanced manufacturing.

  • Certifications: Certain certifications related to specific software or equipment can also enhance your credentials.

  • Key Skills: Besides technical knowledge, strong analytical, problem-solving, and communication skills are crucial for success in this field.

Study Path
Top Colleges

Top Colleges for Electromechanical Engineering in India

  • Indian Institutes of Technology (IITs): IITs are the premier engineering institutes in India, offering excellent programs in mechanical, electrical, and related fields. Getting into an IIT requires a top rank in JEE Advanced.

  • National Institutes of Technology (NITs): NITs are another group of top-tier engineering institutes in India, offering quality education and research opportunities. Admission is through JEE Main.

  • Birla Institute of Technology and Science (BITS): BITS Pilani, BITS Goa, and BITS Hyderabad are well-reputed private engineering institutes known for their rigorous curriculum and industry connections. Admission is based on the BITSAT entrance exam.

  • Vellore Institute of Technology (VIT): VIT Vellore is a popular private engineering college offering a wide range of engineering programs. Admission is through the VITEEE entrance exam.

  • SRM Institute of Science and Technology: SRM University is another well-known private engineering institute with multiple campuses across India. Admission is through the SRMJEE entrance exam.

  • Manipal Institute of Technology (MIT): MIT Manipal is a reputable private engineering college known for its strong industry collaborations and research focus. Admission is based on merit and entrance exams.

Fees

The fees for electromechanical engineering courses in India can vary significantly depending on the type of institution (government, private, or deemed university) and its location. Here's a general overview:

  • Government Colleges: Government engineering colleges typically have the lowest fees, ranging from INR 20,000 to INR 1,00,000 per year for undergraduate programs. These colleges are highly competitive, and admission is based on merit through entrance exams like JEE Main and state-level CETs.

  • Private Colleges: Private engineering colleges generally have higher fees than government colleges, ranging from INR 80,000 to INR 3,00,000 per year for undergraduate programs. The fees can vary depending on the college's reputation, infrastructure, and faculty.

  • Deemed Universities: Deemed universities often have the highest fees, ranging from INR 1,50,000 to INR 5,00,000 or more per year for undergraduate programs. These institutions often offer specialized programs and have a strong focus on research and innovation.

  • Postgraduate Programs (M.Tech): The fees for postgraduate programs in electromechanical engineering are generally higher than undergraduate programs, ranging from INR 50,000 to INR 4,00,000 per year depending on the institution.

Related Exams

Several entrance exams can help you secure admission to top engineering colleges in India for electromechanical engineering or related fields. Here's a breakdown:

  • JEE Main: This is the primary entrance exam for admission to undergraduate engineering programs (B.Tech/B.E.) at NITs, IIITs, and other government-funded engineering colleges in India. A good score is essential for securing a seat in a reputable institution.

  • JEE Advanced: If you aspire to study at the Indian Institutes of Technology (IITs), you need to qualify for JEE Advanced after clearing JEE Main. JEE Advanced is a more challenging exam that tests your conceptual understanding and problem-solving skills.

  • State-Level Engineering Entrance Exams: Many states in India conduct their own engineering entrance exams for admission to state government and private engineering colleges. Examples include MHT CET (Maharashtra), KCET (Karnataka), and WBJEE (West Bengal).

  • Private Engineering College Entrance Exams: Some private engineering colleges conduct their own entrance exams for admission to their B.Tech programs. Examples include VITEEE (Vellore Institute of Technology) and SRMJEE (SRM Institute of Science and Technology).

  • GATE (Graduate Aptitude Test in Engineering): While primarily for postgraduate studies, a good GATE score can also open doors to PSU (Public Sector Undertaking) jobs in the electromechanical engineering field.

Exam NameExam Date
Related Courses
Course NameAverage Fee
B.Tech Mechanical Engineering logo
B.Tech Mechanical Engineering		3,00,000
BE Mechanical Engineering logo
BE Mechanical Engineering		3,00,000
M.Tech Mechanical Engineering logo
M.Tech Mechanical Engineering		2,00,000
ME Mechanical Engineering logo
ME Mechanical Engineering		3,00,000
B.Tech Mechatronics Engineering logo
B.Tech Mechatronics Engineering		3,00,000
B.Tech Mechanical and Automation Engineering logo
B.Tech Mechanical and Automation Engineering		3,00,000
B.Tech Mechatronics and Automation logo
B.Tech Mechatronics and Automation		3,00,000
B.Tech Electrical Engineering logo
B.Tech Electrical Engineering		4,00,000
BE Power Engineering logo
BE Power Engineering		3,00,000
B.Tech Electronics and Instrumentation Engineering logo
B.Tech Electronics and Instrumentation Engineering		3,00,000
B.Tech Instrumentation and Control Engineering logo
B.Tech Instrumentation and Control Engineering		3,00,000
B.Tech Power and Automation logo
B.Tech Power and Automation		3,00,000
B.Tech Robotics and Automation logo
B.Tech Robotics and Automation		3,00,000
B.Tech Electronics Engineering logo
B.Tech Electronics Engineering		3,00,000
B.Tech Electronics and Electrical Communication Engineering logo
B.Tech Electronics and Electrical Communication Engineering		4,00,000
B.Tech Electrical and Electronics Engineering logo
B.Tech Electrical and Electronics Engineering		3,00,000
B.Tech Electrical and Computer Engineering logo
B.Tech Electrical and Computer Engineering		4,00,000
B.Tech Manufacturing Science and Engineering logo
B.Tech Manufacturing Science and Engineering		3,00,000
B.Tech Mechanical Specialization in Automotive Engineering logo
B.Tech Mechanical Specialization in Automotive Engineering		4,00,000
B.Tech Polymer Engineering and Technology logo
B.Tech Polymer Engineering and Technology		3,00,000
Pros And Cons

Pros

  1. High demand for skilled professionals.
  2. Opportunity to work on cutting-edge technology.
  3. Diverse range of industries to work in.
  4. Competitive salary and benefits packages.
  5. Intellectually stimulating and challenging work.
  6. Potential for career advancement and growth.
  7. Contribute to innovation and development.
  8. Job security due to essential skills.
  9. Global opportunities for employment.
  10. Chance to make a tangible impact.

Cons

  1. Demanding workload and tight deadlines.
  2. Requires continuous learning and adaptation.
  3. Potential for on-site work in challenging environments.
  4. High level of responsibility and accountability.
  5. Risk of technical failures and troubleshooting.
  6. Competition for top positions in the field.
  7. May require long hours and travel.
  8. Exposure to hazardous materials or conditions.
  9. Need for strong problem-solving skills.
  10. Pressure to stay updated with technology.