To provide foundational and advanced studies in biomedical engineering subdisciplines, the curriculum prepares graduates with experience in: Applying principles of engineering, biology, human ...

The ultimate objective of this research is to create robust reservoir simulation models for dispersion flows. F. A. V. Artola and V. Alvarado, Sensitivity Analysis of Gassmann's fluid substitution ...

Top-Notch Faculty: Work side-by-side with experienced faculty conducting research on contemporary problems. In the biomedical and chemical engineering Ph.D. program, you will complete a number of ...

Navier-Stokes equations and methods of solution. Scaling techniques. Undergraduate with an interest in transport processes and tissue engineering who have already taken BME 270 (Introductory Fluids).

The curriculum will prepare graduates with experience in: Applying principles of engineering, biology, human physiology, chemistry, calculus-based physics, mathematics (through differential equations) ...

Biomedical engineering integrates life sciences and engineering education that underlie ... circuit representations of neurons and be able to derive and integrate equations describing the circuit as ...

Purpose: The purpose of this course is to provide graduate students with a broad perspective on robotic concepts and technologies applied to (and inspired by) themes of biomedical research and ...

Students are provided with hands-on experience in the application of: Genomic, proteomic, and other large-scale information to biomedical engineering Experience in advanced computational methods used ...

With RIT’s biomedical engineering BS, you’ll combine engineering with biology and medicine to create innovative solutions that improve human health. Comprehensive Curriculum: A calculus-based ...

Biomedical engineering is a highly interdisciplinary field at the intersection of traditional engineering disciplines and medicine. Our program prepares students to assess, design and test solutions ...