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Course Criteria
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1.00 Credits
Mathematics, quantitative analysis and computation for biomedical engineering applications. The first in a three-unit sequence consisting of BME 301A, BME 301B and BME 301C (5 weeks each). Probability and statistics, hypothesis testing, sample size estimation, power analysis, multivariate analysis. FALL.
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1.00 Credits
Mathematics, quantitative analysis and computation for biomedical engineering applications. The second in a three-unit sequence consisting of BME 301A, BME 301B and BME 301C (5 weeks each). Linear system models, continuous and discrete signals, Fourier transforms, application in signal analysis. FALL.
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1.00 Credits
Mathematics, quantitative analysis and computation for biomedical engineering applications. The third in a three-unit sequence consisting of BME 301A, BME 301B and BME 301C (5 weeks each). Numerical differentiation, and integration, optimization, nonlinear ordinary and partial differential equations, applications in modeling and image analysis. FALL.
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1.00 Credits
Applied physics essential for biomedical engineering. The first in a three-unit sequence consisting of BME 302A, BME 302B and BME 302C (5 weeks each). Electromagnetic, interaction of charges, currents and fields in biological systems, bioelectricity and biomagnetic fields. FALL.
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1.00 Credits
Applied physics essential for biomedical engineering. The second in a three-unit sequence consisting of BME 302A, BME 302B and BME 302C (5 weeks each). Optics, wave and particle properties of light in tissue, coherence techniques and interferometry in tissue, laser tissue interaction. FALL.
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1.00 Credits
Applied physics essential for biomedical engineering. The third in a threeunit sequence consisting of BME 302A, BME 302B and BME 302C (5 weeks each). Continuum mechanics, viscoelastic models of tissue, constitutive relationships for tissue and biological fluids, fluid mechanics with applications to biology, physiology and devices. FALL.
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1.00 Credits
Techniques and applications of cellular and molecular biology in biomedical engineering. The first in a three-unit sequence consisting of BME 303A, BME 303B and BME 303C (5 weeks each). Cellular systems, DNA, RNA and proteins, control of gene expression, protein synthesis and trafficking, cell-cell interactions, biotechnology applications. SPRING.
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1.00 Credits
Techniques and applications of cellular and molecular biology in biomedical engineering. The second in a three-unit sequence consisting of BME 303A, BME 303B and BME 303C (5 weeks each). Biomaterial properties, interfacial phenomena in vivo, nonmaterial applications. SPRING.
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1.00 Credits
Techniques and applications of cellular and molecular biology in biomedical engineering. The third in a three-unit sequence consisting of BME 303A, BME 303B and BME 303C (5 weeks each). Biotransport, compartmental analysis, diffusion and active transport, convection applications. SPRING.
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1.00 Credits
Instrumentation and imaging for quantitative measurements in biomedical applications. The first in a three-unit sequence consisting of BME 304A, BME 304B and BME 304C (5 weeks each). Biomedical instrumentation, signal processing, measurement of electrical signals in the body, light, mechanical and chemical sensors. SPRING.
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