Masters of Business Administration: Full-Time (MBA)
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B.S. in Bioengineering
Durham
INTAKE: Jan & Aug
Program Overview
The B.S. in Bioengineering program at the University of New Hampshire is designed to provide students with a comprehensive education that bridges the gap between biology and engineering. This interdisciplinary program focuses on the application of engineering principles to biological systems, preparing students to solve complex problems in healthcare, biotechnology, and environmental sustainability. Students gain a solid foundation in mathematics, physics, chemistry, and biology, which is then applied to specialized bioengineering courses that emphasize both theoretical understanding and practical skills.
STEM-Designated: The B.S. in Bioengineering is a STEM-designated program, highlighting its focus on science, technology, engineering, and mathematics. This designation is particularly beneficial for international students, as it qualifies them for extended Optional Practical Training (OPT) upon graduation. The STEM designation also reflects the program’s rigorous curriculum, which is designed to equip students with critical thinking, analytical, and problem-solving skills essential for success in the rapidly evolving field of bioengineering.
ABET Accredited: The B.S. in Bioengineering program at the University of New Hampshire is accredited by the Accreditation Board for Engineering and Technology (ABET). This prestigious accreditation ensures that the program meets the highest standards of quality and rigor in engineering education. ABET accreditation is recognized globally and assures employers and graduate schools that graduates have received a top-tier education that prepares them to excel in professional practice or advanced studies.
Curriculum: The curriculum for the B.S. in Bioengineering is carefully structured to provide a balance of theoretical knowledge and hands-on experience. Core courses cover essential topics such as biomechanics, biomaterials, systems biology, and bioinstrumentation. In addition, students engage in laboratory work and design projects that allow them to apply engineering principles to real-world biological challenges. The program also includes elective courses, enabling students to specialize in areas such as tissue engineering, medical device design, or environmental bioengineering. The capstone design project, typically completed in the senior year, provides students with the opportunity to collaborate on solving a complex bioengineering problem, often in partnership with industry or research organizations.
Research Focus: Research is a key component of the B.S. in Bioengineering program at the University of New Hampshire. Students have the opportunity to participate in cutting-edge research projects that address some of the most pressing challenges in the field, such as regenerative medicine, biosensor development, and environmental sustainability. The university’s research facilities are equipped with state-of-the-art technology, and students work alongside faculty who are leaders in their fields. This emphasis on research not only enhances the educational experience but also prepares students for careers in research and development or for further academic pursuits at the graduate level.
Industry Engagement: The University of New Hampshire places a strong emphasis on industry engagement for students in the B.S. in Bioengineering program. Through internships, co-op programs, and industry-sponsored projects, students gain valuable real-world experience and develop professional networks. The program’s connections with leading companies in biotechnology, medical devices, and pharmaceuticals provide students with opportunities to apply their skills in practical settings, gain insight into industry needs, and enhance their employability upon graduation.
Global Perspective: The B.S. in Bioengineering program at the University of New Hampshire is designed to prepare students for a globalized workforce. The curriculum includes opportunities for study abroad programs, international research collaborations, and participation in global engineering competitions. Students are encouraged to consider the global implications of their work, particularly in areas such as global health, environmental sustainability, and the ethical considerations of bioengineering practices. This global perspective ensures that graduates are not only technically proficient but also culturally aware and ready to tackle challenges on a global scale.
Location
Durham
Score
IELTS 6.5
Tuition Fee
USD 39851
Undergraduate Entry Requirements
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 6.5 with a minimum of 6.0 in each component.
- TOEFL: Overall score of 80 or higher.
- PTE: Overall score of 59 or higher.
- DET (Duolingo English Test): Overall score of 120.
Scholarships for International Students at the University of New Hampshire (UNH)
International Presidential Scholarship: UNH offers the International Presidential Scholarship to academically outstanding international students entering the university as first-year students. This scholarship is merit-based and provides substantial financial support to recipients. Eligibility criteria include high academic achievement and leadership qualities.
Dean's Scholarship for International Students: The Dean's Scholarship is another merit-based scholarship designed to recognize exceptional academic achievements of international students. It is available for both undergraduate and graduate students. The scholarship amount may vary based on the student's qualifications.
Transfer Scholarships: UNH provides scholarships for international transfer students. These scholarships are awarded based on the student's previous academic performance at their current or previous institution. Eligibility criteria and scholarship amounts may vary.
UNH Foundation Scholarships: The university offers a variety of foundation scholarships to international students based on academic merit, leadership, and other criteria. These scholarships are available for both undergraduate and graduate students and cover a range of fields of study.
Departmental Scholarships: Many academic departments at UNH offer scholarships specifically for students majoring in their respective fields. These scholarships may have specific academic requirements and application processes, so it's essential for students to check with their departments for opportunities.
Private Scholarships: International students can explore external scholarship opportunities, such as those offered by private organizations, foundations, and government agencies from their home countries.
Work-Study Programs: While not a scholarship in the traditional sense, international students at UNH may have the opportunity to participate in on-campus work-study programs. These programs allow students to work part-time jobs on campus to help cover their living expenses.
International Education Scholarships: Some scholarships are specifically designated for international education and cultural exchange programs. These scholarships may support international students' participation in study abroad experiences or cultural exchange initiatives.
Fulbright Scholarships: UNH participates in the Fulbright Program, which provides opportunities for international students to study, teach, or conduct research in the United States. Eligibility and application requirements for Fulbright scholarships can vary by country.
It's important for international students to review the specific eligibility criteria, application deadlines, and application procedures for each scholarship opportunity.
Graduates of the B.S. in Bioengineering program at the University of New Hampshire are equipped with a unique blend of skills that make them highly versatile and competitive in the job market. The interdisciplinary nature of bioengineering opens doors to a wide range of career opportunities across various industries, including healthcare, biotechnology, environmental engineering, and more.
Biomedical Engineer: As a biomedical engineer, graduates can design and develop medical devices, prosthetics, artificial organs, and diagnostic equipment. This role often involves working in collaboration with healthcare professionals to create innovative solutions that improve patient care and outcomes.
Biotechnology Research Scientist: Graduates can pursue careers in biotechnology research, where they work on developing new products and technologies in areas such as genetic engineering, drug development, and regenerative medicine. This role typically involves conducting experiments, analyzing data, and contributing to the advancement of scientific knowledge.
Clinical Engineer: Clinical engineers work within healthcare settings, ensuring that medical equipment is safe, effective, and properly maintained. They often collaborate with medical staff to troubleshoot and resolve technical issues, as well as assist in the implementation of new technologies in clinical environments.
Regulatory Affairs Specialist: In this role, graduates ensure that bioengineering products, such as medical devices and pharmaceuticals, comply with government regulations and industry standards. Regulatory affairs specialists play a critical role in guiding products through the approval process, ensuring safety and efficacy before they reach the market.
Environmental Engineer: Bioengineering graduates can apply their skills to environmental challenges, working on projects related to pollution control, waste management, and sustainable development. Environmental engineers design systems and processes that minimize the environmental impact of industrial activities and promote public health.
Quality Assurance Engineer: Quality assurance engineers are responsible for ensuring that products meet specified quality standards before they are released to the market. In the bioengineering field, this may involve testing medical devices, pharmaceuticals, or biotech products to verify their safety, reliability, and performance.
Research and Development Engineer: R&D engineers in the bioengineering sector work on the forefront of innovation, developing new technologies and improving existing products. This role requires a strong foundation in both engineering principles and biological sciences, as well as the ability to think creatively and solve complex problems.
Tissue Engineering Specialist: Tissue engineering specialists focus on developing artificial organs and tissues for medical applications, such as transplants or regenerative medicine. This cutting-edge field offers opportunities to work in research labs, biotech companies, or academic institutions.
Biomechanics Engineer: Biomechanics engineers apply principles of mechanics to biological systems, designing and improving products such as orthopedic implants, sports equipment, and rehabilitation devices. This career path often involves close collaboration with healthcare providers and patients to enhance physical performance and recovery.
Academic or Research Professor: Graduates who pursue advanced degrees may choose a career in academia, where they can teach and mentor students while conducting research in bioengineering. Professors contribute to the growth of the field by publishing research, securing grants, and developing new courses.
Entrepreneur: With a strong background in bioengineering, graduates may choose to start their own companies, developing innovative products or services that address unmet needs in healthcare, biotechnology, or environmental engineering. Entrepreneurship offers the opportunity to bring new ideas to market and make a significant impact in the field.
