Pollster Education Logo Pollster Education Logo  Sign up

M.S. in Mechanical Engineering

Saint Paul, Minnesota

 

INTAKE: Jan, May & Sept

Program Overview

The Master of Science (M.S.) in Mechanical Engineering at the University of St. Thomas is a comprehensive program designed to equip students with advanced knowledge and skills in the diverse and evolving field of mechanical engineering. Rooted in a STEM (Science, Technology, Engineering, and Mathematics) foundation, this program blends theoretical concepts with hands-on applications to prepare students for leadership roles in various industries. The M.S. in Mechanical Engineering program at the University of St. Thomas provides students with a holistic and forward-thinking education in mechanical engineering. With a STEM designation, an emphasis on cutting-edge technologies, and opportunities for research and practical application, graduates are well-prepared for impactful careers in diverse sectors of the mechanical engineering industry.

Curriculum:

  1. STEM Designation: The M.S. in Mechanical Engineering holds a STEM designation, reflecting the program's alignment with the rigorous standards of STEM education. This designation not only attests to the program's academic excellence but also allows international students to benefit from extended Optional Practical Training (OPT) opportunities.

  2. Interdisciplinary Curriculum: The program offers an interdisciplinary curriculum that covers a broad spectrum of mechanical engineering disciplines, including mechanics, thermodynamics, fluid dynamics, materials science, and robotics. This approach ensures that graduates possess a well-rounded understanding of the field.

  3. Cutting-edge Technologies: Emphasizing the integration of cutting-edge technologies, students engage with the latest advancements in the mechanical engineering domain. This includes exposure to computational tools, simulation techniques, and hands-on experience with state-of-the-art equipment, preparing them for real-world engineering challenges.

  4. Research Opportunities: The program places a strong emphasis on research, providing students with opportunities to contribute to advancements in mechanical engineering. Through collaborative projects, students work closely with faculty members on research initiatives, gaining practical insights and exposure to emerging trends.

  5. Industry-Relevant Projects: Students undertake industry-relevant projects as part of their coursework, allowing them to apply theoretical knowledge to practical scenarios. These projects are often conducted in collaboration with industry partners, providing students with a firsthand understanding of real-world engineering applications.

  6. Professional Development: Recognizing the importance of professional development, the program offers workshops, seminars, and networking events. Students have the opportunity to interact with professionals in the field, attend conferences, and stay informed about the latest developments in mechanical engineering.

  7. Faculty Expertise: The program benefits from a faculty of experienced professionals and researchers who bring a wealth of industry knowledge to the classroom. Faculty members actively engage with students, fostering a dynamic learning environment and providing mentorship.

  8. Capstone Project: The program culminates in a capstone project where students apply their acquired knowledge and skills to solve a complex mechanical engineering problem. This project serves as a comprehensive showcase of their abilities and allows for practical application of engineering principles.

  9. Focus on Sustainability: In response to the growing emphasis on sustainable engineering practices, the program integrates concepts of sustainability into the curriculum. Students explore eco-friendly design principles and methodologies, preparing them to address contemporary engineering challenges.

  10. Global Perspectives: With a focus on global perspectives, the curriculum addresses the impact of mechanical engineering on a global scale. Students gain insights into international engineering practices, standards, and cultural considerations, enhancing their ability to work in a globalized engineering landscape.

Pollster Education

Location

Saint Paul, Minnesota

Pollster Education

Score

IELTS: 6.5

Pollster Education

Tuition Fee

USD 15412

Postgraduate Entry Requirements

1. Academic Qualifications:

  • Postgraduate applicants are required to hold a bachelor's degree with a strong academic record. The range for academic qualifications is between 70% and 80%.

2. English Language Proficiency:

  • IELTS: 6.5 overall with no band less than 6
  • TOEFL iBT: An overall TOEFL score required is 80.
  • PTE: Minimum PTE score of 53 is required.
  • DET (Duolingo English Test): Minimum DET score required is 105.

3. Credential evaluation required.

The University of St. Thomas (UST) in Minnesota, USA, extends a warm welcome to international students by offering a range of scholarships designed to enhance accessibility and support their educational journey. These scholarships underscore UST's commitment to fostering a diverse and inclusive academic community while providing financial assistance to deserving students from around the world.

1.International Merit Scholarships: UST recognizes and rewards academic excellence in international students through merit-based scholarships. These scholarships are awarded based on outstanding academic achievements, including high school or college GPA, standardized test scores, and other notable accomplishments.

2.Global Leaders Scholarship:UST values leadership qualities and encourages students to actively contribute to their communities. The Global Leaders Scholarship is designed to support international students who have demonstrated exceptional leadership skills and a commitment to making a positive impact.

3.Cultural Diversity Scholarship: Celebrating the richness of cultural diversity, UST offers the Cultural Diversity Scholarship to international students who contribute to the vibrant multicultural tapestry of the university. This scholarship aims to recognize and support students from various cultural backgrounds.

4.Need-Based Financial Aid: Understanding the financial challenges that international students may face, UST provides need-based financial aid to eligible individuals. This aid is tailored to address specific financial circumstances, ensuring that deserving students have the resources to pursue their academic goals.

5.International Transfer Student Scholarships: UST acknowledges the achievements and unique challenges faced by international transfer students. Scholarships for international transfers aim to facilitate a smooth transition and recognize the academic accomplishments of students transferring to UST.

6. Global Perspectives Scholarship: Emphasizing the importance of a global outlook, UST offers the Global Perspectives Scholarship to international students who actively contribute to fostering cross-cultural understanding and engagement on campus.

Graduates of the Master of Science (M.S.) in Mechanical Engineering program at the University of St. Thomas are well-positioned for rewarding and diverse career opportunities in the dynamic field of mechanical engineering. The program's comprehensive curriculum, STEM designation, and emphasis on cutting-edge technologies prepare graduates to contribute to innovation and advancements in various industries. The M.S. in Mechanical Engineering program at the University of St. Thomas provides graduates with a versatile skill set and a solid foundation for pursuing diverse and impactful careers in mechanical engineering. Whether in traditional engineering sectors or emerging technology fields, these professionals are well-prepared to contribute to the ever-evolving landscape of mechanical engineering.

  1. Mechanical Engineer: Graduates can pursue roles as Mechanical Engineers, designing and analyzing mechanical systems, components, and products. They are involved in the development and optimization of mechanical processes, ensuring efficiency and reliability.

  2. Research and Development Engineer: With a focus on research opportunities within the program, graduates may choose to work as Research and Development Engineers. They contribute to the innovation and advancement of new technologies, materials, and design concepts.

  3. Automotive Engineer: Given the interdisciplinary nature of the program, graduates can explore roles as Automotive Engineers, contributing to the design and improvement of automotive systems, including engines, transmissions, and vehicle dynamics.

  4. Aerospace Engineer: Graduates may pursue careers as Aerospace Engineers, working on the design, analysis, and testing of aircraft and spacecraft components. They play a crucial role in ensuring the safety and efficiency of aerospace systems.

  5. Energy Systems Engineer: With a focus on sustainability and eco-friendly design principles, graduates may work as Energy Systems Engineers. They contribute to the development and optimization of energy-efficient systems, renewable energy technologies, and sustainable engineering solutions.

  6. Robotics Engineer: The program's exposure to cutting-edge technologies positions graduates for roles as Robotics Engineers. They design, program, and optimize robotic systems for various applications, including manufacturing, healthcare, and automation.

  7. Product Design Engineer: Graduates with a strong understanding of materials and design principles can pursue roles as Product Design Engineers. They are involved in the conceptualization and development of new products, ensuring functionality and market appeal.

  8. Thermal Systems Engineer: Graduates specializing in thermodynamics and heat transfer can work as Thermal Systems Engineers. They focus on the design and optimization of thermal systems, including HVAC systems, heat exchangers, and energy-efficient heating/cooling solutions.

  9. Mechatronics Engineer: With exposure to interdisciplinary concepts, graduates may explore roles as Mechatronics Engineers. They integrate mechanical systems with electronics and control systems, contributing to the development of intelligent and automated systems.

  10. Materials Engineer: Graduates may choose to work as Materials Engineers, specializing in the selection and development of materials for specific applications. They play a crucial role in ensuring the structural integrity and performance of engineered products.

  11. Project Engineer: Graduates with strong project management skills can pursue roles as Project Engineers. They lead and coordinate engineering projects, ensuring timelines, budgets, and quality standards are met.

  12. Consulting Engineer: The diverse skill set acquired through the program equips graduates to work as Consulting Engineers. They provide expertise to organizations seeking solutions to engineering challenges, often working with a variety of clients and industries.

  13. Environmental Engineer: Graduates interested in sustainable engineering practices may explore roles as Environmental Engineers. They focus on minimizing the environmental impact of engineering projects, addressing issues such as pollution control and resource conservation.

  14. Quality Assurance Engineer: With a focus on quality management, graduates can pursue roles as Quality Assurance Engineers. They ensure that engineering processes adhere to quality standards, conducting tests and inspections to maintain product integrity.

  15. Systems Engineer: Graduates may work as Systems Engineers, overseeing the integration of various engineering components into a cohesive system. They collaborate with multidisciplinary teams to ensure the overall success of complex engineering projects.

Similar Courses
View All
WhatsApp Enquiry Call Enquiry