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- Physiology, human physiology, medicine, biomedical engineering, engineering, biomedical devices, syllabus, syllabi (2)
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Articles 1 - 14 of 14
Full-Text Articles in Engineering
Biom 4110(Honors)/6110: The Science Of Medicine (Syllabus), Bradford D. Pendley
Biom 4110(Honors)/6110: The Science Of Medicine (Syllabus), Bradford D. Pendley
Biomedical Engineering Syllabi
Course Description: Integration of fundamental principles from physics, chemistry, biology and mathematics, and applications of these principles to solve problems in medicine.
Engr 1009: Preparation For Engineering Problem Solving (Syllabus), Stephen Strain, Drew Garth
Engr 1009: Preparation For Engineering Problem Solving (Syllabus), Stephen Strain, Drew Garth
Biomedical Engineering Syllabi
Course Description: Applications of algebra and trigonometry to engineering problems. Accelerated preparation for an engineering or technology major.
Biom 3110(Honors): Medical Physiology (Syllabus), Bradford D. Pendley
Biom 3110(Honors): Medical Physiology (Syllabus), Bradford D. Pendley
Biomedical Engineering Syllabi
Course Description: Basic principles of human physiology and how these are applied in medicine and biomedical engineering problem and devices; physiological principles using appropriate mathematical and engineering models to construct an understanding of how the body works as an integrated system.
Biom/Biol 4110: The Science Of Medicine (Syllabus), Bradford D. Pendley
Biom/Biol 4110: The Science Of Medicine (Syllabus), Bradford D. Pendley
Biomedical Engineering Syllabi
Course Description: Integration of fundamental principles from physics, chemistry, biology and mathematics, and applications of these principles to solve problems in medicine.
Engr 1009: Preparation For Engineering Problem Solving (Syllabus), Stephen Strain
Engr 1009: Preparation For Engineering Problem Solving (Syllabus), Stephen Strain
Biomedical Engineering Syllabi
Course Description: Applications of algebra and trigonometry to engineering problems. Accelerated preparation for an engineering or technology major.
Biom 2720: Experimental Design And Analysis For Biomedical Engineering (Syllabus), Stephen Strain
Biom 2720: Experimental Design And Analysis For Biomedical Engineering (Syllabus), Stephen Strain
Biomedical Engineering Syllabi
Course Description: Application of probability, statistics, error analysis, uncertainty in design and performance of biomedical engineering experimentation; discussion and evaluation of common experimental designs for medical device development.
Biom 1720: Introduction To Biomedical Engineering Tools (Syllabus), Stephen Strain
Biom 1720: Introduction To Biomedical Engineering Tools (Syllabus), Stephen Strain
Biomedical Engineering Syllabi
Course Description: Use of computer tools for data analysis, presentation, documentation; introduction to programming; individual and group design projects.
Biom 1720: Introduction To Biomedical Engineering Tools (Syllabus), Stephen Strain
Biom 1720: Introduction To Biomedical Engineering Tools (Syllabus), Stephen Strain
Biomedical Engineering Syllabi
Course Description: Use of computer tools for data analysis, presentation, documentation; introduction to programming; individual and group design projects.
Biom 3010: Medical Measurements (Syllabus), Carl D. Herickhoff
Biom 3010: Medical Measurements (Syllabus), Carl D. Herickhoff
Biomedical Engineering Syllabi
Course Description: Theory and application of major types of sensors used in biomedical engineering and clinical medicine; principles of signal processing and instrumentation, such as frequency domain analysis, operational amplifiers, and filtration.
Biom 3110: Medical Physiology (Syllabus), Bradford D. Pendley
Biom 3110: Medical Physiology (Syllabus), Bradford D. Pendley
Biomedical Engineering Syllabi
Course Description: Basic principles of human physiology and how these are applied in medicine and biomedical engineering problem and devices; physiological principles using appropriate mathematical and engineering models to construct an understanding of how the body works as an integrated system.
Biom 4730 / Mech 4365: Biomaterials, Joel D. Bumgardner
Biom 4730 / Mech 4365: Biomaterials, Joel D. Bumgardner
Biomedical Engineering Syllabi
Course Description: Synthetic materials and their interaction with the physiological environment; methods to design and study materials that are compatible with natural tissue.
Biom 3010: Medical Measurements (Syllabus), Aaryani Sajja
Biom 3010: Medical Measurements (Syllabus), Aaryani Sajja
Biomedical Engineering Syllabi
Course Description: Theory and application of major types of sensors used in biomedical engineering and clinical medicine; principles of signal processing and instrumentation, such as frequency domain analysis, operational amplifiers, and filtration.
Biom 4760: Biomedical Engineering Design Principles (Syllabus), Carl D. Herickhoff
Biom 4760: Biomedical Engineering Design Principles (Syllabus), Carl D. Herickhoff
Biomedical Engineering Syllabi
Course Description: Practical design methods emphasizing the front-end or concept development stage of engineering design; design a system, component, or process to meet desired needs within realistic constraints with functioning on multi-disciplinary teams.
Biom 2720: Experimental Design And Analysis For Biomedical Engineering (Syllabus), Stephen Strain
Biom 2720: Experimental Design And Analysis For Biomedical Engineering (Syllabus), Stephen Strain
Biomedical Engineering Syllabi
Course Description: Application of probability, statistics, error analysis, uncertainty in design and performance of biomedical engineering experimentation; discussion and evaluation of common experimental designs for medical device development.