| source University of Illinois at Urbana-Champaign (X) |
level |
department Bioengineering (X) |
Lecture and discussion of recent trends in bioengineering; topics typically include the biological interaction with ultrasound and microwave radiation, modeling, instrumentation, biomaterials, biomechanics, biological heat and mass transfer, and medical imaging techniques.
Score: 9.277264 Details | Listing | Web page
May be repeated.
Score: 9.277264 Details | Listing | Web page
Introduction to material, energy, charge, and momentum balances in biological problems. Steady-state and transient conservation equations for mass, energy, charge, and momentum will be derived and applied to mathematically analyze physiological systems using basic mathematical principles, physical laws, stoichiometry, and thermodynamic properties. Prerequisite:
Score: 9.277264 Details | Listing | Web page
A comprehensive hands-on understanding of the principles of cell biology that are inherent in tissue engineering design. Provides experience in safely and skillfully manipulating cells of the four tissue types and performing various quantitative analyses on products produced by cells that have differentiated. Lab reports written in the style accepted by scientific journals will be required. For Bioengineering majors with sophomore standing.
Score: 9.277264 Details | Listing | Web page
Introduction to electronic circuits and general linear systems with examples from biology and medicine. Principles of circuit analysis, transient analysis, steady-state analysis, semiconductor devices and op-amps, and network frequency response. Linear systems and mathematical models of systems, including differential equations, convolution. Fourier series and transforms, and power spectral density. Class examples and coursework apply general techniques to problems in biological signal analysis. Prerequisite;
Score: 9.277264 Details | Listing | Web page
Same as
Score: 9.277264 Details | Listing | Web page
Special project or reading activity. May be repeated in the same or separate terms to a maximum of 12 hours. Prerequisite: Approved written application to department as specified by department or instructor.
Score: 9.277264 Details | Listing | Web page
Subject offerings of new and developing areas of knowledge in bioengineering intended to augment the existing curriculum. See Class Schedule or departmental course information for topics and prerequisites. May be repeated in the same or separate terms if topics vary to a maximum of 8 hours.
Score: 9.277264 Details | Listing | Web page
Survey lecture course intended to introduce a broad range of Bioengineering topics. Approved for S/U grading only. May be repeated.
Score: 9.277264 Details | Listing | Web page
Builds on systems fundamentals to describe, quantify, and model human physiological systems. Examines components, relationships, and homeostatic controls of neural, musculoskeletal, respiratory, cardiovascular, endocrine, digestion, and renal-filtration systems. Mathematical modeling and Matlab simulation are used to further understanding of the systems and relate physiological consequences to changes in environment or component function. Prerequisite:
Score: 9.277264 Details | Listing | Web page
Special project or reading activity. Prerequisite: Approved written application to department as specified by department or instructor.
Score: 9.277264 Details | Listing | Web page
Subject offerings of new and developing areas of knowledge in bioengineering intended to augment the existing curriculum. See Class Schedule or departmental course information for topics and prerequisites. May be repeated in the same or separate terms if topics vary to a maximum of 8 hours.
Score: 9.277264 Details | Listing | Web page
Same as
Score: 9.277264 Details | Listing | Web page
Introduction to engineering aspects of the detection, acquisition, processing, and display of signals from living systems; biomedical sensors for measurements of biopotentials, ions and gases in aqueous solution, force, displacement, blood pressure, blood flow, heart sounds, respiration, and temperature; therapeutic and prosthetic devices; medical imaging instrumentation. Same as
Score: 9.277264 Details | Listing | Web page
Laboratory to accompany
Score: 9.277264 Details | Listing | Web page
Same as
Score: 9.277264 Details | Listing | Web page
Same as
Score: 9.277264 Details | Listing | Web page
Same as
Score: 9.277264 Details | Listing | Web page
Same as
Score: 9.277264 Details | Listing | Web page
Same as
Score: 9.277264 Details | Listing | Web page
Same as
Score: 9.277264 Details | Listing | Web page
Same as
Score: 9.277264 Details | Listing | Web page
Principles of biology and materials science and their integration inherent in tissue engineering design. Prerequisite: Recommended: One year each of college-level chemistry, physics, mathematics, and materials science.
Score: 9.277264 Details | Listing | Web page
Same as
Score: 9.277264 Details | Listing | Web page