M.S. in Biology
The Master of Science (M.S.) in Biology at the University of Wisconsin–La Crosse ...
B.S. in Physics/Engineering (Dual degree )
La Crosse, Wisconsin
INTAKE: Jan & Sept
Program Overview
The B.S. in Physics/Engineering (Dual Degree) program at the University of Wisconsin-La Crosse is an interdisciplinary educational pathway designed for students interested in both physics and engineering. This program allows students to pursue two degrees—one in physics and one in engineering—equipping them with the theoretical knowledge of physics and the practical application skills of engineering. The program prepares graduates for advanced careers in a variety of fields, including materials science, mechanical engineering, electrical engineering, and more, with a strong emphasis on problem-solving and innovation.
STEM-designated: The B.S. in Physics/Engineering (Dual Degree) is designated as a STEM (Science, Technology, Engineering, and Mathematics) program, reflecting its focus on delivering a rigorous education in the core areas of physics and engineering. This designation not only enhances the employability of graduates but also provides international students with extended work opportunities under the STEM OPT visa program, making the program attractive to a global student body.
Curriculum: The curriculum of the B.S. in Physics/Engineering (Dual Degree) program is designed to integrate both the fundamental principles of physics and the hands-on application of engineering. Students take courses in classical mechanics, electromagnetism, quantum physics, and thermodynamics, while also pursuing engineering coursework in areas such as electrical circuits, materials science, thermodynamics, and system dynamics. This combination of physics and engineering courses ensures that graduates are well-rounded professionals capable of addressing complex technical challenges in various industries.
Research Focus: Students in the B.S. in Physics/Engineering (Dual Degree) program are encouraged to participate in research projects that bridge the gap between physics and engineering. Research opportunities include projects in nanotechnology, renewable energy, materials engineering, and advanced manufacturing. Students may work with faculty on innovative solutions to real-world problems, such as improving energy efficiency, designing sustainable materials, or advancing the development of next-generation technologies. The emphasis on research helps students build critical thinking and problem-solving skills, preparing them for careers in industry or academia.
Industry Engagement: The B.S. in Physics/Engineering (Dual Degree) program offers strong industry engagement through internships, cooperative education opportunities, and collaborations with local and national companies. Students gain practical experience by working with industry professionals on applied projects, giving them a competitive edge in the job market. This industry engagement fosters connections between students and potential employers, allowing them to build a network that will support their career development after graduation.
Global Perspective: The program also incorporates a global perspective by encouraging students to explore international opportunities, such as study-abroad programs or internships with multinational companies. Graduates with this global outlook are well-equipped to work in diverse teams and address global challenges, including those related to climate change, sustainable energy, and technology development. The global focus prepares students for careers in industries that are increasingly interconnected and require a broad understanding of global markets and technological trends.
Location
La Crosse, Wisconsin
Score
IELTS 6
Tuition Fee
USD 18825
Undergraduate Entry Requirements
Application Fee: $25
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 65% or above in their previous academic qualifications.
English Language Proficiency:
- IELTS: Overall band score of 6.0 with a minimum of 5.5 in each component.
- TOEFL: Overall score of 73 or higher.
- PTE: Overall score of 54 or higher.
- DET (Duolingo English Test): Minimum score of 100.
The University of Wisconsin–La Crosse is dedicated to promoting diversity and fostering an inclusive campus community. Through a range of scholarships for international students, UWL aims to make higher education accessible and provide financial support to those who demonstrate academic excellence, leadership, and cultural diversity.
Global Cultures Scholarship: UWL offers the Global Cultures Scholarship to international students who demonstrate promoting cultural diversity and understanding. This merit-based award recognizes students who actively contribute to the international community on campus.
International Education & Engagement (IEE) Tuition Scholarship: The IEE Tuition Scholarship is designed to support international students who have excelled academically. It provides financial assistance to help cover tuition costs, making quality education more accessible to students from around the world.
International Excellence Scholarship: This scholarship is awarded to outstanding international students who have demonstrated exceptional academic achievements. The International Excellence Scholarship reflects UWL's attracting and supporting high-achieving students from diverse backgrounds.
INTO UWL Scholarship Programs: INTO UWL, a program designed to assist international students with their academic and cultural transition, offers several scholarship opportunities. These scholarships may cover a portion of tuition costs and are aimed at encouraging students to pursue their academic goals at UWL.
Athletic Scholarships: UWL provides opportunities for international students with exceptional athletic abilities through its athletic scholarship programs. These scholarships are available for various sports and can contribute to tuition, fees, and other related expenses.
Cultural Diversity Scholarship: UWL values diversity and encourages students from different cultural backgrounds to apply for the Cultural Diversity Scholarship. This award recognizes the unique perspectives and contributions that international students bring to the university community.
Graduates of the B.S. in Physics/Engineering (Dual Degree) program from the University of Wisconsin-La Crosse are well-positioned for a wide array of career opportunities in industries that require a deep understanding of both the theoretical aspects of physics and the practical application of engineering principles. This unique combination of skills opens the door to various high-demand fields, such as renewable energy, aerospace, telecommunications, automotive, and advanced manufacturing.
Mechanical Engineer: With a solid foundation in physics and engineering principles, graduates are well-equipped to work as mechanical engineers. In this role, they may design, analyze, and test mechanical systems and devices used in industries like automotive, robotics, and manufacturing, helping improve product performance and efficiency.
Electrical Engineer: Graduates can work as electrical engineers, applying their knowledge of physics and electrical engineering to design and optimize electrical systems. This could involve working on power generation systems, electronics, communications, or automation technologies. Electrical engineers are in high demand in sectors such as telecommunications, electronics, and energy.
Aerospace Engineer: The combination of physics and engineering knowledge also prepares graduates for careers in aerospace engineering. They can contribute to the design and development of aircraft, spacecraft, and other aviation technologies. This field requires expertise in both the physical principles of aerodynamics and the engineering required to bring these designs to life.
Materials Scientist/Engineer: Graduates can enter the field of materials science and engineering, working on the development and testing of new materials for a wide range of applications, such as semiconductors, nanomaterials, biomaterials, and composites. They may work in industries like electronics, healthcare, and manufacturing, helping create advanced materials that enhance product performance.
Systems Engineer: The dual-degree program prepares students for roles in systems engineering, where they are responsible for designing, integrating, and managing complex systems in industries like defense, telecommunications, and energy. Systems engineers work to ensure that all components of a system work together efficiently, often requiring a multidisciplinary approach.
Energy Engineer: Graduates of the program are well-suited for roles in the renewable energy sector. As energy engineers, they work on the design, development, and implementation of energy systems that focus on sustainability, such as solar, wind, and geothermal power. They also work to improve the efficiency of existing energy infrastructure.
Data Scientist/Engineer: With strong analytical skills developed through physics and engineering courses, graduates can pursue careers in data science and engineering. They can work with large data sets to identify patterns, make predictions, and solve complex problems in industries such as technology, finance, and healthcare.
Research and Development Scientist: Graduates may choose to work in research and development (R&D), either in academia or the private sector. They may contribute to cutting-edge innovations in various fields, including electronics, energy, healthcare, and materials science. R&D professionals push the boundaries of knowledge and technology, often working on projects that lead to new products or technologies.
Product Development Engineer: Graduates can also work in product development, applying their interdisciplinary knowledge to the design and improvement of new products. They may be involved in creating consumer electronics, medical devices, or industrial machines, ensuring these products meet both engineering standards and practical physics principles.
Consulting and Technical Advisory: With expertise in both physics and engineering, graduates can work as consultants or technical advisors, offering their skills to organizations in need of specialized knowledge. These roles involve problem-solving and providing strategic guidance to help companies improve efficiency, innovate, and tackle complex technical challenges.
Academia and Teaching: Some graduates may choose to further their education through graduate programs and pursue careers in academia. As professors or researchers, they contribute to advancing knowledge in both physics and engineering, while also teaching the next generation of engineers and scientists.
