B.S. in Biomedical Engineering

West Hartford, Connecticut

 

INTAKE: Jan & Aug

Program Overview

The Bachelor of Science in Biomedical Engineering at the University of Hartford is designed to provide students with a strong foundation in both engineering principles and biological sciences. This program integrates core concepts from engineering, biology, and medicine to prepare students for careers in the rapidly evolving field of biomedical engineering. Students learn to apply engineering techniques to solve problems related to healthcare, medical devices, and biotechnology, making a significant impact on patient care and medical innovations.

STEM Designated: The B.S. in Biomedical Engineering is designated as a STEM (Science, Technology, Engineering, and Mathematics) program. This designation highlights the program’s focus on technical and scientific principles, which are integral to the field of biomedical engineering. It reflects the program's commitment to providing students with a rigorous education in engineering and biological sciences, preparing them for technical roles and research opportunities in the biomedical sector.

ABET-accredited: The B.S. in Biomedical Engineering at the University of Hartford is accredited by the Accreditation Board for Engineering and Technology (ABET). ABET accreditation ensures that the program meets high standards of quality and rigor in engineering education. This accreditation is a mark of excellence, confirming that the program prepares graduates with the skills and knowledge needed to succeed in the biomedical engineering profession and meet industry requirements.

Curriculum: The curriculum for the B.S. in Biomedical Engineering is designed to provide a comprehensive education in both engineering and biological sciences. Core courses include subjects such as biomaterials, biomechanics, medical imaging, and bioinstrumentation. The program also includes foundational courses in mathematics, physics, and chemistry, which are essential for understanding complex biomedical engineering concepts. Additionally, students have opportunities to engage in elective courses, allowing them to explore specialized areas of interest within biomedical engineering.

Research Focus: The research focus in the Biomedical Engineering program at the University of Hartford includes a variety of areas such as medical device development, tissue engineering, and biomaterials. Faculty and students collaborate on research projects that address real-world challenges in healthcare and medical technology. Students are encouraged to participate in research activities, contributing to advancements in biomedical engineering through hands-on experiences and experimental work.

Industry Engagement: The B.S. in Biomedical Engineering program emphasizes strong industry engagement, providing students with opportunities to connect with professionals and organizations in the biomedical field. Through internships, co-op programs, and industry partnerships, students gain practical experience and insights into the biomedical engineering industry. The program also hosts industry seminars and workshops, allowing students to network with professionals, learn about current trends, and explore potential career paths.

Global Perspective: The B.S. in Biomedical Engineering incorporates a global perspective by addressing international issues and innovations in biomedical engineering. The program encourages students to consider global health challenges and the impact of biomedical technologies on different populations. Opportunities for study abroad programs, international research collaborations, and global health projects further enhance students' understanding of how biomedical engineering solutions are applied worldwide and the importance of addressing global healthcare needs.

Pollster Education

Location

West Hartford, Connecticut

Pollster Education

Score

IELTS 6.5

Pollster Education

Tuition Fee

USD 45682

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 58 or higher.
  • DET (Duolingo English Test): Minimum score of 110.
  • SAT: Overall score of 480 or higher.

The University of Hartford in the USA offers various scholarships and financial aid options to international students to help ease the cost of education. These scholarships are awarded based on factors such as academic merit, talents, and financial need. 

International Student Scholarships: The University of Hartford offers a range of merit-based scholarships specifically for international undergraduate students. These scholarships are typically awarded based on academic achievement and are renewable for up to four years. The amount of the scholarship varies depending on the student's academic qualifications.

Talent-Based Scholarships: International students with exceptional talents in areas such as the arts, music, or athletics may be eligible for talent-based scholarships. These scholarships recognize and reward students for their outstanding abilities.

Honor Scholarships: The university offers competitive honor scholarships to academically high-achieving undergraduate students. These scholarships can significantly reduce the cost of tuition.

Diversity Scholarships: Some scholarships are awarded to students who contribute to the diversity of the university's student body. These scholarships are aimed at students from underrepresented backgrounds and often require an application and essay.

Alumni Legacy Scholarships: Children of University of Hartford alumni may be eligible for legacy scholarships. These scholarships are designed to support the next generation of students in their educational journey.

Departmental Scholarships: Various academic departments at the university offer scholarships to students majoring in specific fields. These scholarships are based on academic performance within a particular discipline.

Need-Based Financial Aid: In addition to scholarships, international students can apply for need-based financial aid. This may include grants and loans, and eligibility is determined by the student's financial circumstances.

External Scholarships: The University of Hartford assists international students in finding external scholarships, which are scholarships offered by organizations, foundations, or governments outside of the university.

Global Ambassador Scholarships: These scholarships are designed for international students who have been designated as Global Ambassadors. Global Ambassadors play a crucial role in helping new international students transition to life at the university.

It's important to note that scholarship availability, criteria, and application deadlines can change from year to year.

Graduates of the Bachelor of Science in Biomedical Engineering from the University of Hartford are equipped with a diverse skill set that opens up various career opportunities in the biomedical and healthcare fields. The program’s interdisciplinary approach combines engineering with biological sciences, preparing students for roles that address complex medical and technological challenges. 

Biomedical Engineer: Biomedical engineers design and develop medical devices and equipment, such as prosthetics, imaging systems, and diagnostic tools. They work in medical device companies, research institutions, and hospitals, applying engineering principles to create solutions that improve patient care and treatment outcomes.

Clinical Engineer: Clinical engineers work within healthcare facilities to ensure that medical equipment is safe, functional, and properly maintained. They manage the installation, calibration, and repair of medical devices, and collaborate with healthcare professionals to optimize equipment use in clinical settings.

Medical Device Designer: Specializing in the design and development of medical devices, these engineers work on creating innovative solutions such as surgical instruments, artificial organs, and diagnostic apparatus. They may be employed by medical device manufacturers or engage in research and development projects.

Biomaterials Engineer: Biomaterials engineers focus on developing materials used in medical implants, prosthetics, and tissue engineering. They work on creating materials that are compatible with the human body and enhance the functionality and longevity of medical devices.

Research Scientist: Graduates can pursue careers as research scientists in biomedical fields, conducting experiments and studies to advance medical knowledge and technology. They may work in academic institutions, research laboratories, or biotechnology companies, contributing to breakthroughs in medical science.

Regulatory Affairs Specialist: In this role, graduates ensure that medical devices and technologies comply with regulatory standards and guidelines. They work with government agencies and companies to navigate the approval process for new products and ensure adherence to industry regulations.

Biomedical Consultant: Biomedical consultants provide expert advice on the development and implementation of biomedical technologies. They may work with healthcare providers, medical device companies, and regulatory bodies to offer insights on technology integration, market trends, and compliance.

Healthcare Technology Manager: These professionals manage the technological infrastructure of healthcare facilities, overseeing the acquisition, installation, and maintenance of medical equipment. They ensure that technology meets the needs of healthcare providers and contributes to effective patient care.

Tissue Engineer: Tissue engineers work on developing biological tissues that can be used for medical implants, regenerative medicine, or research purposes. They focus on creating and manipulating tissue cultures to address issues such as organ shortages and tissue damage.

Patent Examiner: Graduates with an interest in intellectual property can work as patent examiners, evaluating patent applications related to biomedical technologies. They assess the novelty and feasibility of inventions and contribute to protecting innovations in the biomedical field.

Academic or Industry Educator: Some graduates choose to pursue advanced degrees and become educators or trainers in the biomedical engineering field. They may teach at universities, community colleges, or professional development programs, sharing their expertise with the next generation of engineers.

Sales and Marketing Specialist: Biomedical engineers can also work in sales and marketing for medical device companies, where they use their technical knowledge to promote products, educate clients, and support the commercial aspects of biomedical technologies.


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