Chemistry data analysis coursework

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  1. Product details
  2. Accepted Coursework for Honors
  3. Chemistry / Biochemistry | Catalog
  4. Chemistry / Master of Science
  5. Editorial Reviews

Covers the methods used to investigate the extent of contamination in soil, groundwater, and sediment. Applies basic concepts in the chemical engineering curriculum to specific approaches utilized in characterizing the fate and transport of contaminants and for designing the engineering processes utilized in their treatment. The course focuses on the fundamentals of nuclear magnetic resonance NMR spectroscopy and imaging in fields ranging from biomedical engineering to electrochemical energy storage.

Course grade based on problem sets, quizzes, and final project presentation. Thanks to progress in computer technology and methodological development, now there exist atomistic simulation approaches for the realistic modeling and quantitative prediction of such properties.

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Atomistic simulations are therefore becoming increasingly important as a complement for experimental characterization, to provide parameters for meso- and macroscale models, and for the in-silico discovery of entirely new materials. This course aims at providing a comprehensive overview of cutting-edge atomistic modeling techniques that are frequently used both in academic and industrial research and engineering.

Participants will develop the ability to interpret results from atomistic simulations and to judge whether a problem can be reliably addressed with simulations. The students will also obtain basic working knowledge in standard simulation software. Prerequisites: Instructor's permission Additional current topics in chemical engineering taught by regular or visiting faculty.

Special topics arranged as the need and availability arise. Topics usually offered on a one-time basis. Since the content of this course changes each time it is offered, it may be repeated for credit. Prerequisites: Pre-requisites: Thermodynamics any , or General Chemistry. This course covers the fundamentals of the solid state as related to pharmaceutical development, and is intended for junior and senior undergraduates and graduate students.

Theoretical and practical aspects are covered, including segments on thermal and spectroscopic analytical instrumentation. Topics include crystal structure, polymorphism, crystallization processes, pharmaceutical properties, amorphous solids, solid state reactions, stability testing, polymorphism, solid oral formulation, particle size control, and dissolution testing. The connections between molecular structure, physical structure e. This course provides students an overview of biopharmaceutical design, development, manufacturing, and regulatory requirements from an engineering perspective.

The unit operations, equipment selection, and process development associated with small molecule, biologics, and vaccine manufacturing are all illustrated through examples, and quantitative engineering approaches are applied as appropriate. Small molecules, biologics, vaccines, solid oral formulations, sterile processing, and design of experiments DoE are treated along with a module on regulatory requirements. Prerequisites: Instructor's permission. An advanced overview of the fundamentals of electrochemistry, with examples taken from modern applications.

An emphasis is placed on mass transfer and scaling phenomena.

Accepted Coursework for Honors

Principles are reinforced through the development of mathematical models of electrochemical systems. Course projects will require computer simulations. The course is intended for advanced graduate students, conducting research involving electrochemical technologies. Chemical Engineering Colloquium.

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Required for all M. Topics related to professional development and the practice of chemical engineering are discussed. No degree credit is granted.

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This course is not intended for M. Prerequisites: The instructor's permission. This research seminar introduces topics at the forefront of biological research in a format and language accessible to quantitative scientists and engineers lacking biological training. Conceptual and technical frameworks from both biological and physical science disciplines are utilized.

The objective is to reveal to graduate students where potential lies to apply techniques from their own disciplines to address pertinent biological questions in their research. Classes entail reading, criticism and group discussion of research papers and textbook materials providing overviews to various biological areas including: evolution, immune system, development and cell specialization, the cytoskeleton and cell motility, DNA transcription in gene circuits, protein networks, recombinant DNA technology, aging, and gene therapy.

All graduate students are required to attend the department colloquium as long as they are in residence. Topics related to professional development and the practice of chemical engineering. No degree credits granted. Intended for M. Prescribed for M.

Chemistry / Biochemistry | Catalog

Degree candidates are required to conduct an investigation of some problem in chemical engineering or applied chemistry and to submit a thesis describing the results of their work. No more than 6 points in this course may be counted for graduate credit, and this credit is contingent upon the submission of an acceptable thesis.

The concentration in pharmaceutical engineering requires a 2-point thesis internship. Prerequisites: The qualifying examinations for the doctorate. Open only to certified candidates for the Ph. Doctoral candidates in chemical engineering are required to make an original investigation of a problem in chemical engineering or applied chemistry, the results of which are presented in their dissertations. No more than 15 points of credit toward the degree may be granted when the dissertation is accepted by the department.

Prerequisites: Recommendation of the professor concerned and approval of the master's research department. For postdoctoral students and other qualified special students who wish to pursue research under the guidance of members of the department. Not open to undergraduates or to candidates for the degrees of Ch. A candidate for the Eng. Open only to certified doctoral candidates. A candidate for the doctorate in chemical engineering may be required to register for this course in every term after the student's course work has been completed, and until the dissertation has been accepted.

Convective and diffusive movement and reaction of molecules in biological systems.

Chemistry / Master of Science

Kinetics of homogeneous and heterogeneous reactions in biological environments. Mechanisms arid models of transport across membranes. Convective diffusion with and without chemical reaction. Diffusion in restricted spaces.

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Irreversible thermodynamic approaches to transport and reaction in biological systems. Mechanisms and models of transport across membranes. Analysis and design of replacements for the heart, kidneys, and lungs. Specification and realization of structures for artificial organ systems. Fundamental principles and underlying assumptions of statistical mechanics.

Boltzmann's entropy hypothesis and its restatement in terms of Helmholtz and Gibbs free energies and for open systems. Correlation times and lengths. Exploration of phase space and observation timescale. Correlation functions. Fermi-Dirac and Bose-Einstein statistics.

Data Analysis 4: Data Transformation - Computerphile

Fluctuation-response theory. Applications to ideal gases, interfaces, liquid crystals, microemulsions and other complex fluids, polymers, Coulomb gas, interactions between charged polymers and charged interfaces, ordering transitions. The effect of variations in genome structure between individuals within a species, including those deemed healthy or diseased, and among species, can be inferred statistically by comparisons of sequences with behaviors, and mechanistically, by studying the action of molecules whose structure is encoded within the genome.

This course examines known mechanisms that elucidate the combined effect of environmental stimulation and genetic makeup on the behavior of cells in homeostasis, disease states, and during development, and includes assessments of the probable effect of these behaviors on the whole organism. Quantitative models of gene translation and intracellular signal transduction will be used to illustrate switching of intracellular processes, transient and permanent gene activation, and cell commitment, development, and death.

Fundamentals are emphasized: the laws of thermodynamics are derived and their meaning explained and elucidated by applications to engineering problems. A presentation of the basic principle underlying electrochemical processes. Thermodynamics, electrode kinetics, and ionic mass transport. Examples of industrial and environmental applications illustrated by means of laboratory experiments: electroplating, refining, and winning in aqueous solutions and in molten salts; electrolytic treatment of wastes; primary, secondary, and fuel cells.

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Prerequisites: elementary physical chemistry. Thermodynamics of surfaces, properties of surfactant solutions and surface films, electrostatic and electrokinetic phenomena at interfaces, adsorption; interfacial mass transfer and modern experimental techniques. In this role, you will investigate and solve complex data quality and delivery problems. You will acquire new data sources and contribute heavily to our data processing software. You will author specifications for new tools and help manage technical projects. At Factual, we cultivate multidisciplinary engineering teams. Everyone is comfortable writing code and analyzing data, but we expect each individual contributor to bring an additional unique skill or expertise to the table.