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Bachelor of Biomedical Engineering

USA

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What will I learn?

Biomedical engineering applies quantitative engineering analysis and design to biological, medical, and behavioral health problems. It is a field dedicated to revealing basic knowledge of disease mechanisms to improve human health, and to developing new technologies and therapies to improve the quality of life.

The aim of our undergraduate program is to provide students with the training necessary to bridge the gaps between medicine, engineering and biomedical research. We provide a broad background in chemical, mechanical, materials science and electrical engineering to prepare students for careers in biomedical research and design with a quantitative engineering emphasis. Our undergraduate program is also designed to provide students with sufficient coursework for advanced training at graduate, medical or physical therapy schools or in other allied health professions. The outlook for biomedical engineers is incredibly promising. The Bureau of Labor Statistics projects that employment for biomedical engineers will grow by 7% between 2016 and 2026.

Our faculty make our department truly special. Several of our professors have been recognized by professional societies as among the best early-career researchers and educators in the country. Undergraduate students have opportunities to do research in nanomedicine, microfluidics, and more, enriching their coursework.

Focus areas include:

Musculoskeletal & Neural Engineering includes the study of the normal growth and aging, function, injury, degeneration, repair, regeneration, rehabilitation, and augmentation of musculoskeletal and neural tissues and systems

Cancer Diagnosis and Therapy applies experimental and computational approaches to explore biomechanical function across multiple scales: the molecule, cell, tissue, organ, and whole body.

Disease Modeling includes determining underlying mechanisms of human disease using computational models of molecular, cellular, and higher-level systems.

Tissue and Regenerative Engineering is used to study, model and modify biomolecules (including nucleic acids and proteins) and cells, as well as to determine the regulatory networks that control genetic, biochemical, cellular, and physiological functions.

AREAS OF STUDY

  • Biomechanics and neural engineering
  • Tissue and regenerative engineering
  • Systems and computational biology
  • Cancer therapies and diagnostics

CAREER OPTIONS

  • Biomedical Engineer
  • Product Development Engineer
  • Design Engineer
  • System Test Engineer
  • Medical Device Sales
  • Research and Development Engineering
  • Product Specialist
  • Technical Support Engineer
  • Project Manager
  • Product Specialist
  • Quality Engineer
  • Consultant
  • Business Technology Analyst
  • Research Scientist
  • Entrepreneur

Which department am I in?

College of Engineering

Study options

Full Time (126 credit hours)

Tuition fees
US$37,900.00 per year
Full Time Tuition (12+ credits): USD $17,420 / Semester

*Price shown is for indicative purposes, please check with institution

Start date

Expected September 2024

Venue

College of Engineering

102 Du Pont Hall,

NEWARK,

Delaware,

19716, United States

Entry requirements

For international students

Applicants to the University must be graduates of accredited secondary schools or have equivalent credentials. Competitive applicants to the University of Delaware have a 79 TOEFL or 6.5 IELTS.

*There may be different IELTS requirements depending on your chosen course.

ADD TO MY FAVOURITES

About University of Delaware

UD students study high-ranking, research-intensive programs supported by over 275 years of academic heritage, joining a distinguished alumni network.

  • Top 201-300 universities globally (Shanghai Ranking, 2022)
  • Top 100 universities in the U.S. (US World & News, 2022)
  • One of the 10 oldest universities in the U.S., founded in 1743
  • Located close to New York, Washington D.C. and Philadelphia

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