B.S. in Bio-Engineering

Entry requirements for undergraduate programs

Application Fees : US$ 60

1. Academic Requirements: To be eligible for undergraduate programs at UMass Dartmouth, applicants must have completed a bachelor's degree or its equivalent from a recognized institution. The university typically requires a minimum GPA equivalent to 75% or above for admission. 

2. English Language Proficiency:                                                                                                  

• IELTS (International English Language Testing System):
  • Overall Score: 6.5 or higher
  • No individual band score should be less than 6.0.
     
• TOEFL iBT (Test of English as a Foreign Language, Internet-Based Test):
  • Overall Score: 79 or higher
     
• DET (Duolingo English Test):
  • Score: 105 or higher
     
• PTE (Pearson Test of English):
  • Score: 53 or higher

SAT is not mandatory but recommended.

Scholarships for International Students at the University of Massachusetts Dartmouth

1. Merit-Based Scholarships: UMass Dartmouth offers various merit-based scholarships for international students based on academic achievement and qualifications. These scholarships may cover a portion of tuition costs and are awarded to students with exceptional academic records.

2. International Student Scholarships: The university provides specific scholarships exclusively for international students. These scholarships are designed to attract and support outstanding international talent. The eligibility criteria and award amounts may vary, and students should check with the admissions office for details.

3. Graduate Assistantships: Graduate students pursuing master's or doctoral degrees may have opportunities to work as graduate teaching or research assistants. These assistantships often include a stipend and a tuition waiver, which significantly reduce the cost of education.

4. Global UGRAD Program: UMass Dartmouth participates in exchange programs such as the Global Undergraduate Exchange Program (Global UGRAD). This program provides scholarships to international undergraduate students, allowing them to study in the United States for a semester or academic year.

5. External Scholarships and Sponsorships: International students can explore external scholarship opportunities provided by governments, foundations, and organizations in their home countries. Some countries offer scholarships to support their citizens studying abroad.

6. Fulbright Program: UMass Dartmouth is a participant in the Fulbright Program, which offers scholarships for international students to pursue graduate studies, conduct research, or teach in the United States. Eligible students can apply for Fulbright scholarships through the U.S. Department of State.

7. Financial Aid Guidance: The university's financial aid office assists international students in navigating the scholarship and financial aid application process. They provide guidance on finding scholarships, completing applications, and meeting deadlines.

8. Need-Based Aid: While need-based financial aid options may be limited for international students, UMass Dartmouth encourages students to complete the Free Application for Federal Student Aid (FAFSA) if eligible. FAFSA results may be considered for certain financial aid opportunities.

9. Assistantships and Research Grants: Graduate students in science, engineering, and technology fields may have access to research assistantships and grants funded by faculty research projects.

The Bachelor of Science in Bioengineering program at the University of Massachusetts Dartmouth (UMass Dartmouth) prepares students for a wide range of career opportunities in the rapidly growing field of bioengineering. Graduates of the B.S. in Bioengineering program at UMass Dartmouth are well-equipped to pursue rewarding careers in diverse fields such as biomedical engineering, biotechnology, healthcare, research, and academia. The program's interdisciplinary curriculum and hands-on experiences prepare students to make meaningful contributions to society through innovation and technological advancement in healthcare and life sciences.

1. Biomedical Engineer: Graduates can pursue careers as biomedical engineers, where they apply engineering principles and techniques to design and develop medical devices, prosthetics, and healthcare technologies. They work collaboratively with healthcare professionals to improve patient care and develop innovative solutions to medical challenges.

2. Biotechnology Industry: Bioengineers find opportunities in the biotechnology industry, where they contribute to research and development of new drugs, vaccines, and biopharmaceuticals. They may work in areas such as drug delivery systems, tissue engineering, genetic engineering, and molecular diagnostics.

3. Medical Device Manufacturing: Many graduates enter the medical device manufacturing sector, where they design, test, and manufacture medical devices and equipment. They may work for companies that produce devices such as pacemakers, artificial organs, diagnostic imaging systems, and surgical instruments.

4. Healthcare Consulting: Graduates with a B.S. in Bioengineering can pursue careers in healthcare consulting firms, where they provide technical expertise and strategic advice to healthcare organizations, medical device companies, and government agencies. They analyze healthcare systems, evaluate technologies, and recommend solutions to improve efficiency and patient outcomes.

5. Research and Development (R&D): Bioengineers play crucial roles in research and development (R&D) organizations, where they conduct cutting-edge research to advance knowledge in areas such as tissue engineering, regenerative medicine, and biomedical imaging. They work in academic institutions, government labs, and private research organizations to develop new technologies and therapies.

6. Academic and Industry Collaboration: Some graduates pursue careers that bridge academia and industry, collaborating on research projects, technology transfer initiatives, and commercialization efforts. They may work in university research centers, innovation hubs, or technology transfer offices, facilitating the translation of research discoveries into real-world applications.

7. Advanced Degrees: The B.S. in Bioengineering program also prepares students for further education in graduate or professional schools. Many graduates pursue advanced degrees in bioengineering, biomedical engineering, medicine, or related fields to deepen their expertise and pursue specialized career paths.