| source Harvard (X) |
level |
department Engineering Sciences (X) |
Content and requirements are similar to ES 164, with the exception that students enrolled in ES 264 are assigned more demanding problem sets and are required to prepare a term project or presentation in applied environmental chemistry.
Score: 9.424208 Details | Listing | Web page
Students are expected to meet all requirements of Engineering Sciences 122 and to give a presentation on a cellular engineering topic of their choosing, subject to instructor approval, with handouts, homework, and examination questions.
Score: 9.424208 Details | Listing | Web page
Course requirements are similar to Engineering Sciences 158, with the exception that students enrolled in Engineering Sciences 258 are required to prepare a term project analyzing current research in a specific area of digital communications.
Score: 9.424208 Details | Listing | Web page
For linear theory: singular solutions; waves and vibrations; dislocations and inhomogeneities; wave radiation from cracking and faulting. Fracture dynamics. Finite deformations; buckling and localizations; thermodynamics; thermoelasticity; poroelasticity.
Score: 9.424208 Details | Listing | Web page
Course content and requirements are similar to ES 166, with the exception that students enrolled in ES 266 are assigned more demanding problem sets and are required to prepare a term project or presentation in environmental microbiology.
Score: 9.424208 Details | Listing | Web page
Same topic areas and lectures as for Engineering Sciences 162 but supplemented by a weekly 90 minute advanced session, and more demanding problems, reading, and reporting assignments.
Score: 9.424208 Details | Listing | Web page
Students are expected to meet all the requirements of Engineering Sciences 139 and in addition are required to prepare an individual term project with significant analytic emphasis in an area of scientific or technological innovation.
Score: 9.424208 Details | Listing | Web page
Course requirements are similar to Engineering Sciences 159, with the exception that students enrolled in Engineering Sciences 259 are required to prepare a term project analyzing current research in a specific problem area within Robotics.
Score: 9.424208 Details | Listing | Web page
Students expected to meet all of the requirements of Engineering Sciences 149 and in addition to submit a term project with significant analytic content.
Score: 9.424208 Details | Listing | Web page
Students are expected to meet all the requirements of Engineering Sciences 157 and in addition are required to prepare a more substantial term project at a level on par with current research in the field.
Score: 9.424208 Details | Listing | Web page
Fundamental engineering and biological principles underlying field of tissue engineering, along with examples and strategies to engineer specific tissues for clinical use. Student design teams prepare a research proposal and participate in a weekly laboratory.
Score: 9.424208 Details | Listing | Web page
Advanced machine learning, from the unifying perspective of inference and regularization. Statistical learning theory, kernel methods; connections to information theory and data compression. Model fitting and stochastic computation for high-dimensional and non-Euclidean data.
Score: 9.424208 Details | Listing | Web page
Physics and chemistry of aerosol particles. Concepts: size, shape, and density; number size distributions; uniform, accelerated, and Brownian motion; electrical properties; measurement instrumentation; condensation/evaporation; coagulation; and optical properties. Taught by reference to topical problems.
Score: 9.424208 Details | Listing | Web page
Explores microbial diversity, metabolic pathways, and microbially induced chemical reactions involved in cycling and biomineralization of redox-active contaminants, including metals and radionuclides. Application and engineering of microorganisms for environmental remediation will be discussed.
Score: 9.424208 Details | Listing | Web page
Present basic concepts, principles, and applications of environmental chemistry for students in environmental engineering, geology, chemistry, biology and related fields. Goal is to explore and apply the fundamental chemical principles of thermodynamics, kinetics, chemical bonding, and mass transfer to understand Earth processes and solve complex environmental problems. Survey a variety of environmental chemistry topics, including acid-base chemistry, aqueous speciation, solution-mineral-gas equilibria, oxidation-reduction reactions, kinetics, precipitation/dissolution, and atmospheric chemistry.
Score: 9.424208 Details | Listing | Web page
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Score: 9.424208 Details | Listing | Web page
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Score: 9.424208 Details | Listing | Web page
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Score: 9.424208 Details | Listing | Web page
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Score: 9.424208 Details | Listing | Web page
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Score: 9.424208 Details | Listing | Web page
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Score: 9.424208 Details | Listing | Web page
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Score: 9.424208 Details | Listing | Web page
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Score: 9.424208 Details | Listing | Web page
Develops and applies continuum and statistical mechanics to biomechanical phenomena. Molecular, cellular and tissue mechanics. Motors, motility and muscle. Sensory physiology and mechanotransduction. Morphogenesis and development. Animal locomotion. Evolutionary mechanics.
Score: 9.424208 Details | Listing | Web page
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Score: 9.424208 Details | Listing | Web page
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