Mechatronics Engineering Track
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Mechatronics engineering is a multidisciplinary field essential to the progress of modern industries. By combining mechanics, electronics, and computer engineering, these engineers design efficient and smart systems that form the backbone of robotics, control and electro-mechanical systems, automation, and manufacturing. This field serves as an important foundation for rapid growth and innovation within these industries.
Graduates of our Mechatronics track are well prepared to be mechatronics, robotics, and automation engineers with outstanding, hands-on skills in prototyping and testing mechatronics systems.
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Studying Mechatronics Engineering at Texas A&M offers a unique blend of mechanical, electronics, computer science, and control engineering, making you an incredibly versatile member of a dynamic field.
Here are a few reasons to pursue a degree in Mechatronics Engineering with us:
- Interdisciplinary Knowledge: Our program combines multiple engineering disciplines, providing a comprehensive understanding of how different systems interact. This prepares you for a variety of roles in engineering.
- Problem-Solving Skills: Our curriculum emphasizes critical thinking and problem-solving, equipping you with the skills to tackle complex engineering challenges.
- Hands-On Experience: Our program includes practical labs and projects, allowing you to apply theoretical knowledge to real-world situations, which is invaluable in building your expertise.
- Career Opportunities: The demand for mechatronics engineers is on the rise across various industries, including robotics, automotive, aerospace, manufacturing, and healthcare. This opens up a wide range of fulfilling career paths for you.
- Contribution to Society: As automation and robotics become more integrated into our lives, mechatronics engineers will be crucial in driving technological advancements that shape the future. You could play a significant role in developing technologies that improve quality of life, such as smart medical devices, automated manufacturing systems, and renewable energy solutions.
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Check out the degree requirements for our Bachelor of Science in Multidisciplinary Engineering Technology.
STEM Education Track
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The demand for qualified STEM teachers is more critical than ever, as these educators play a pivotal role in shaping the next generation's skills and mindset. With technology advancing rapidly, the need for educators who are well-versed in STEM subjects is evident.
The MXET STEM Education track involves a Bachelor's Degree in Engineering Technology and Teacher Certifications in Engineering, Math, and Physical Sciences. The track is offered by the Department of Engineering Technology and Industrial Distribution in collaboration with the College of Education and Human Development. This fruitful collaboration between engineering and education bridges the critical STEM educator preparation gap.
Our graduates are well prepared to be multidisciplinary engineering technology engineers with outstanding, hands-on skills in prototyping and testing mechatronics systems. In addition, our graduates will be certified secondary education teachers in engineering, mathematics, and physical sciences. They are ready to inspire K-12 students to become future scientists and engineers.
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Because our STEM Education track is the only engineering program in the world providing an engineering degree in STEM Education and teacher preparation.
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Check out the degree requirements for our Bachelor of Science in Multidisciplinary Engineering Technology.
Want to know more about the B.S. Multidisciplinary Engineering Technology degree?
Interested in the tracks above but also want to pursue an advanced degree? We offer a Master of Science in Engineering Technology (MSET).
Master of Science in Engineering Technology
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The Master of Science in Engineering Technology (MSET) is a resident program in the Department of Engineering Technology and Industrial Distribution (ETID) with a 30-credit-hour curriculum offering thesis and non-thesis degree options. The degree provides advanced application‐oriented education in engineering that addresses a need for a workforce with advanced technical talent.
Our MSET program focuses on critical technologies in the fields of manufacturing and mechanical engineering, electronic systems and mechatronics. The program is suitable for students with backgrounds in STEM-related fields, including those pursuing the Mechatronics and STEM Education Tracks.
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The MSET Fast Track 4+1 Option is available for MXET, MMET, and ESET students. If you are approved for the fast track option, you can take up to nine credit hours of graduate coursework while pursuing your undergraduate degree, shortening your time to attaining the Master of Science in Engineering Technology degree.
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Explore the degree requirements for our Master of Science in Multidisciplinary Engineering Technology and the fast-track option available.