Bachelors in Electromechanical Engineering

School of Science and Engineering

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Embark on a dynamic journey into the heart of innovation with our Bachelor’s in Electromechanical Engineering program. Designed to cultivate adept problem-solvers and visionary engineers, our curriculum blends the realms of electrical and mechanical systems, offering a comprehensive understanding of the intricate interplay between the two. Through a meticulously crafted array of Electromechanical Engineering courses, students delve into subjects ranging from circuit theory to control systems, robotics to power electronics. Join us at the forefront of technological advancement and harness the power of interdisciplinary expertise in our Electromechanical Engineering program.

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Core Courses & Topics: Bachelors in Electromechanical Engineering

Important: Below is an example of the topics or areas you may develop and work on during your studies. By no means is it a complete or required list, as AIU programs do not follow a standardized curriculum. It is meant solely as a reference point and example. Want to learn more about the curriculum design at AIU? Check here: Course and Curriculum 

Our Bachelor’s Degree in Electromechanical Engineering courses and curriculum include Circuit Theory and Analysis, Control Systems, Robotics and Automation, Power Electronics, Mechanical Design, and Sensors and Actuators. Graduates from renowned Electromechanical Engineering universities are equipped to explore diverse electromechanical career opportunities across industries such as manufacturing, automotive, aerospace, and renewable energy, significantly impacting various Electromechanical Engineering jobs.

  • Circuit Theory and Analysis
  • Control Systems
  • Kinematics
  • Robotics and Automation
  • Power Electronics
  • Power semiconductor devices
  • Mechanical Design
  • Sensors and Actuators
  • Power semiconductor devices
  • Switching circuits
  • CAD/CAM
  • Component sizing
  • Sensor technologies
  • Signal Conditioning

Orientation Courses

In our Bachelor’s program in Electromechanical Engineering, students undergo a comprehensive orientation to lay the foundation for a holistic understanding of the field. Orientation courses cover key aspects of Electrical Engineering, delving into circuit analysis, digital systems, and electronics fundamentals. Simultaneously, students explore core principles of Mechanical Engineering, including mechanics, materials science, and thermodynamics. This interdisciplinary approach primes students to grasp the intricacies of Electromechanical Systems, fostering expertise in areas such as control theory, automation, and power distribution. 

Additionally, orientation courses introduce students to Electromechanical Technology, providing hands-on experience with tools, instrumentation, and manufacturing processes essential to the field. Moreover, students gain insights into the burgeoning field of Robotics Engineering, where they study robot kinematics, programming, and applications in various industries. This comprehensive orientation equips students with the diverse skill set needed to excel in the dynamic realm of Electromechanical Engineering.

  • Communication & Investigation (Comprehensive Resume)
  • Seminar Administrative Development (Book Summary)
  • Organization Theory (Portfolio)
  • Seminar Cultural Development (Practical Experience)
  • Experiential Learning (Autobiography)
  • Seminar International Development (Publications)

Research Projects

In our Bachelor’s program in Electromechanical Engineering, students can engage in cutting-edge research projects that span various facets of the field. These projects delve into Mechatronics Engineering, where students explore the integration of mechanical and electrical systems to develop innovative devices and machines. Under the guidance of faculty mentors, students investigate Control Systems, focusing on designing and optimizing feedback mechanisms for enhanced system performance. Additionally, research projects encompass topics in Mechanical Design, enabling students to apply mechanics and materials science principles to solve real-world engineering challenges.

Through our Electromechanical Engineering technology program, students delve into advanced research initiatives that contribute to the evolution of electromechanical engineering technology. Our program, accredited by the Engineering Technology Accreditation Commission, ensures that students receive a rigorous and comprehensive education that meets the highest standards of quality and relevance in the field. As an Electromechanical Engineering Technology student, you’ll have the opportunity to collaborate with faculty experts and industry partners, gaining invaluable hands-on experience and making meaningful contributions to the advancement of electromechanical engineering.

  • MBM300 Thesis Proposal
  • MBM302 Bachelor’s Thesis (5,000 words)

Publication – In our Bachelor’s program in Mechanical Engineering, students are encouraged to showcase their innovative solutions and research findings through student publications. These publications serve as a platform for students to disseminate their work addressing broadly defined engineering problems across various disciplines. From advancements in Mechanical Engineering Technology to breakthroughs in Electrical Engineering Technology and beyond, students explore diverse topics such as renewable energy systems, advanced materials, and electromechanical systems. Through these publications, students not only share their insights and discoveries but also contribute to the collective knowledge base of the engineering community, fostering collaboration and driving progress in the field.

Thesis Defense for Bachelors in Electromechanical Engineering

As students in our Bachelor’s program in Electromechanical Engineering prepare for their thesis defense, they demonstrate their mastery of interdisciplinary principles merging electrical and mechanical engineering. Drawing from their senior capstone project, students showcase their ability to tackle complex challenges in automated systems, applying theoretical knowledge to practical applications. Throughout their journey to this pivotal moment, students have delved deep into appropriate technical literature, refining their understanding and honing their analytical skills. The thesis defense represents the culmination of their studies, embodying the program educational objectives to produce graduates equipped with the expertise to innovate, design, and implement solutions at the nexus of science in electromechanical engineering.

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Incredible Student Experience for Bachelors in Electromechanical Engineering

At AIU, students pursuing a Bachelor’s in Electromechanical Engineering experience a rich and diverse educational journey. As part of our comprehensive program, students engage with rigorous coursework that spans both electrical engineering and mechanical engineering disciplines, equipping them with a holistic understanding of electromechanical systems. Through hands-on projects and collaborative efforts with fellow mechanical engineers, students explore the intricacies of mechanical systems and delve into the complexities of control systems. Beyond their specialized coursework, students also benefit from our robust general education curriculum, fostering critical thinking and communication skills essential for success in today’s engineering landscape. 

Additionally, students can access various AI tools, including AI-powered simulations and analysis software, empowering them to tackle real-world challenges with innovative solutions. Whether working individually or in technical teams, students are well-prepared to make meaningful contributions to electromechanical engineering major upon earning their Bachelor of Science degree from AIU.

Community & Social

At AIU, our Bachelor’s program in Electromechanical Engineering fosters a vibrant community where students engage in social and community-building activities alongside their academic pursuits. Through a broad range of extracurricular opportunities, students expand their networks and develop lifelong friendships and professional connections. In addition to their rigorous coursework, students have access to extensive technical literature and resources, empowering them to explore broadly defined technical topics and stay at the forefront of innovation.

Our interdisciplinary program encourages collaboration across disciplines, enriching the learning experience and preparing students to tackle complex challenges in the field. As part of our educational objectives, students are encouraged to participate in community outreach initiatives, applying their knowledge and skills to make a positive impact in society. Furthermore, students can conduct standard tests and experiments, gaining valuable hands-on experience that complements their theoretical learning. Through a combination of technical expertise, general education, and community engagement, students at AIU are equipped to thrive both academically and socially in the dynamic field of electromechanical engineering.

Academic Resources

At Atlantic International University, our commitment to academic excellence is reflected in the diverse resources available to students pursuing Electromechanical Engineering. With a focus on providing a comprehensive learning experience, our Virtual Campus offers over 25 unique tools designed to support students’ development, growth, and motivation. One of the latest additions is the Virtual Reality 3D immersive experience, offering an innovative approach to learning.

In addition to cutting-edge tools, students can access various academic resources tailored to their needs and program goals. Our AIU Online library boasts a vast collection of 260,000 books and over 30 million peer-reviewed articles, journals, and publications, providing students with a rich source of knowledge. Furthermore, the Merlin Media Center hosts over 105,000 AIU-created academic content, facilitating student collaboration and knowledge sharing.

Recognizing the importance of staying abreast of modern tools and technologies, our curriculum encompasses basic concepts alongside the utilization of digital electronics and graphical communication. Students are encouraged to engage with non-technical environments, gaining practical insights into real-world processes that meet program criteria.

Throughout their academic journey, students receive guidance and support from dedicated academic advisers who assist them in navigating their coursework and achieving their academic and professional goals. Whether pursuing an associate degree or progressing towards advanced studies, students can rely on the expertise and assistance of our program contacts to ensure a fulfilling educational experience. At AIU, we are committed to empowering students with the knowledge and skills they need to succeed in the dynamic field of Electromechanical Engineering.

Live Classes

In our Bachelor’s program in Electromechanical Engineering, students engage in two live classes designed to enhance their ability to function effectively in the field and explore various career paths. The first live class focuses on technical electives, allowing students to delve deeper into specialized areas of interest such as renewable energy systems or advanced robotics. Through interactive sessions and discussions, students gain valuable insights into emerging technologies and industry trends, preparing them for diverse career paths.

The second live class centers on hands-on experience and practical application, allowing students to design systems and solve real-world engineering challenges. Students develop critical problem-solving skills by working collaboratively on projects and simulations and gain firsthand experience applying theoretical concepts to practical scenarios. Additionally, these live classes serve as a platform for students to connect with professionals and experts in the field through guest lectures and interactions with members of professional societies. Through these immersive learning experiences, students acquire technical proficiency and develop the confidence and adaptability needed to excel in acquiring technical proficiency in engineering.

AIU Live Classes Examples on Electromechanical Engineering: Characteristics attitudes and environment for effective problem solving by Antreas NazirisIntroduction to Drilling|

Special Projects, Research Publications, & Co-Authoring

In our Electromechanical Engineering Technology program, special projects, research publications, and co-authoring opportunities are vital in fulfilling degree requirements and expanding students’ horizons. By engaging in these activities, students solidify their understanding of core concepts and develop practical skills essential for success in the field. Students learn to improve processes and innovate solutions to real-world challenges through special projects, laying a solid foundation for their future careers. Research publications and co-authoring opportunities apply knowledge and provide avenues for students to apply their knowledge and contribute to the academic community. Whether exploring differential equations or meeting the Engineering Technology Accreditation Commission’s general criteria, students gain invaluable experience and expertise that prepares them to excel in their chosen profession.

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Career Center for Electromechanical Engineering

The Career Center for graduates of our Bachelor’s program in Electromechanical Engineering serves as a pivotal resource in navigating the broad engineering field. Equipped with the knowledge and skills gained through our rigorous program, graduates are well-prepared to embark on diverse career paths spanning electrical and mechanical domains. The Career Center provides comprehensive support to graduates as they apply written and practical knowledge to real-world scenarios, ensuring they are prepared to tackle standard tests and excel in their chosen field. Whether pursuing roles in electrical engineering, mechanical engineering, or interdisciplinary positions, our graduates benefit from personalized guidance and industry connections to secure rewarding opportunities in the ever-evolving field of electromechanical engineering.

Tools for Electromechanical Engineering

In our Bachelor’s program in Electromechanical Engineering, graduates are equipped with a diverse set of tools that bridge the realms of electrical and mechanical engineering, preparing them for successful careers in this interdisciplinary field. These tools enable graduates to apply their knowledge and skills to design, analyze, and optimize electromechanical systems across various industries. Whether in electrical circuit analysis or mechanical design, graduates leverage these tools to solve complex engineering problems and drive innovation forward.

  1. CAD/CAM Software (e.g., SolidWorks, AutoCAD)
  2. Simulation Software (e.g., MATLAB/Simulink, LabVIEW)
  1. Programming Environments (e.g., Arduino IDE, Python)
  2. Circuit Design and Analysis Tools (e.g., NI Multisim, PSpice)
  3. Microcontrollers (e.g., Arduino, Raspberry Pi)
  4. Oscilloscopes
  5. Multimeters
  6. Power Supplies
  7. Sensors and Actuators
  8. 3D Printers and Prototyping Tools

With these tools at their disposal, our Electromechanical Engineering program graduates are well-prepared to tackle the challenges of the modern engineering landscape and contribute to advancements in science and technology.

Associations for Electromechanical Engineering Professionals

Professionals in the field of Electromechanical Engineering benefit greatly from being part of associations that offer networking opportunities, professional development resources, and industry insights. These associations provide a platform for collaboration, knowledge exchange, and career advancement. Whether graduates are seeking to stay updated with the latest trends, connect with fellow professionals, or access specialized training, these organizations play a crucial role in supporting their ongoing growth and success.

List of associations:

  1. IEEE Robotics and Automation Society
  2. American Society of Mechanical Engineers (ASME)
  3. Institute of Electrical and Electronics Engineers (IEEE)
  4. Society of Automotive Engineers (SAE) International
  5. Association for Computing Machinery (ACM)
  6. National Society of Professional Engineers (NSPE)
  7. International Society of Automation (ISA)
  8. American Institute of Aeronautics and Astronautics (AIAA)
  9. International Electrotechnical Commission (IEC)
  10. Society of Manufacturing Engineers (SME)

By actively engaging with these associations, professionals in Electromechanical Engineering can stay informed about industry developments, access valuable resources, and expand their professional networks, ultimately enhancing their careers and making meaningful contributions to the field.

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Bachelors in Electromechanical Engineering Requirements

Admission to the Bachelor’s program in Electromechanical Engineering at AIU requires applicants to hold a bachelor’s degree from a recognized university. This foundational requirement ensures that incoming students have attained the necessary academic qualifications to excel in our rigorous program. Additionally, prospective students are encouraged to demonstrate proficiency in relevant subjects such as mathematics, physics, and engineering principles. By upholding these standards, AIU maintains a high-quality learning environment and ensures that students are well-prepared to embark on their academic journey in Electromechanical Engineering.

How Can You Apply?

To apply for the Bachelor’s program in Electromechanical Engineering at AIU, follow these steps:

  1. Browse Through Courses: Visit the AIU website and navigate to the Bachelor’s program in Electromechanical Engineering. Browse through the available courses, taking note of the curriculum, program requirements, and learning outcomes.
  2. Select the Course: Once you have reviewed the program details, select the Bachelor’s program in Electromechanical Engineering as your desired course of study. Ensure that it aligns with your academic and career goals.
  3. Enter Details: Complete the application form with accurate personal and academic details. Be prepared to provide information about your educational background, previous coursework, and any relevant experience in the field.
  4. Apply: Submit your completed application form through the AIU website or online application portal. Double-check all information for accuracy before finalizing your application.
  5. Lodge Application: After submitting your application, you will receive confirmation of receipt from AIU. Your application will then be processed by the admissions team, who will review your qualifications and determine your eligibility for the Bachelor’s program in Electromechanical Engineering.

By following these steps, students can initiate the application process for the Bachelor’s program in Electromechanical Engineering at AIU, paving the way for knowledge development and skills enhancement in the dynamic field of manufacturing and engineering.

Financial Support & Scholarships

At AIU, we understand the importance of providing affordable and accessible financial support to students pursuing a Bachelor’s degree in Electromechanical Engineering. Through our comprehensive scholarship programs, we strive to make higher education more attainable for aspiring engineers. These scholarships are designed to alleviate the financial burden associated with tuition costs, textbooks, and other educational expenses, ensuring that students can focus on their studies without undue financial stress. 

Whether specializing in mechanical systems or delving into the intricacies of electrical engineering, AIU offers a range of scholarship opportunities to support students throughout their academic journey. With our commitment to making education affordable and easy to access, students can pursue their bachelor’s degree in Electromechanical Engineering with confidence and peace of mind.

What’s the Cost Per Year for Pursuing Bachelors in Electromechanical Engineering at AIU?

At AIU, pursuing a Bachelor’s degree in Electromechanical Engineering is not only a valuable investment in your future but also an affordable one. Our flexible payment options of AIU online tuition allow students to pay their tuition fees in convenient monthly installments, making higher education accessible to a wider range of individuals. With transparent pricing and no hidden costs, students can plan their finances with confidence, knowing exactly what to expect each month. 

Additionally, AIU offers various financial aid options, including scholarships and grants, to further assist students in managing their educational expenses. By prioritizing affordability and accessibility, AIU ensures that students can pursue their academic goals without undue financial burden, empowering them to succeed in the dynamic field of Electromechanical Engineering.

FAQs

What is Electromechanical Engineering?

Electromechanical Engineering is a field that combines principles of both electrical and mechanical engineering to design, develop, and maintain systems and devices that involve the integration of electrical and mechanical components. It focuses on the interaction between electrical systems and mechanical systems, encompassing areas such as robotics, automation, control systems, power generation, and electromechanical devices. In essence, Electromechanical Engineering involves the study and application of technology that merges electrical and mechanical elements to create innovative solutions for various industries and sectors.

What subjects are covered in a Bachelor's in Electromechanical Engineering program?

A Bachelor’s in Electromechanical Engineering program covers a range of subjects including electrical circuits, control systems, robotics, power electronics, mechanical design, sensors and actuators, and mechatronics. These subjects provide students with a comprehensive understanding of the integration between electrical and mechanical systems, preparing them for careers in industries such as manufacturing, automotive, aerospace, and renewable energy.

What are the career prospects after completing a degree in Electromechanical Engineering?

After completing a degree in Electromechanical Engineering, graduates can pursue diverse career opportunities in industries such as manufacturing, automotive, aerospace, robotics, renewable energy, and automation. They can work as electromechanical engineers, control systems engineers, robotics engineers, mechatronics engineers, design engineers, maintenance engineers, and project managers, among other roles. These professionals are in high demand to design, develop, and maintain complex electromechanical systems and devices, driving innovation and technological advancement in various sectors.

What skills are important for success in Electromechanical Engineering?

Important skills for success in Electromechanical Engineering include proficiency in electrical and mechanical principles, problem-solving abilities, critical thinking skills, attention to detail, teamwork and collaboration, proficiency in programming and computer-aided design (CAD), knowledge of control systems and automation, strong communication skills, and adaptability to new technologies and methodologies. These skills enable engineers to design, analyze, and optimize electromechanical systems effectively, contributing to their success in the field.

Is a Bachelor's degree in Electromechanical Engineering a good choice for me?

Yes, a Bachelor’s degree in Electromechanical Engineering is a good choice for individuals interested in a dynamic and interdisciplinary field that combines principles of electrical and mechanical engineering.

What universities offer Bachelor's programs in Electromechanical Engineering?

AIU offers one of the best bachelor’s degree programs in Electromechanical Engineering.

How long does it take to complete a Bachelor's degree in Electromechanical Engineering?

A Bachelor’s degree in Electromechanical Engineering typically takes around four years to complete.

Can I specialize in a particular area within Electromechanical Engineering during my studies?

Yes, you can specialize in specific areas within Electromechanical Engineering during your studies, such as robotics, control systems, power electronics, or mechatronics.

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