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Engineering Management |
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EGRM 6628 - Six Sigma Quality Planning
Prerequisite: EGRM 6609 or equivalent. Review of Six Sigma and its role in managing quality at all levels of an organization, including its relationship to lean initiatives. Presentation of Six Sigma history, philosophy, tools, processes, and significant case studies. Projects utilize the techniques to generate "hands-on" experience.
3 credit hours.
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EGRM 6630 - Project Management
Prerequisite: EGRM 6609 or equivalent. Review of CPM-PERT methodologies and use in managing complex engineering related projects. Analysis of bias in estimating and in forecast preparation. Strategies for achieving on-time task completion and minimizing critical chains.
2 credit hours.
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EGRM 6639 - Achieving Optimal Operations
Prequisite: EGRM 6609 and EGRM 6604 or equivalent. Concepts of lean production, Japanese production systems, push vs. pull production systems, benchmarking and evaluation schemes, schedule management, overcoming bottlenecks, and performance and productivity improvement techniques applicable to service and manufacturing systems. Workforce issues (affairs) including union acceptance, productivity, and workforce education, training and compensation.
3 credit hours.
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EGRM 6641 - Supply Chain Management
Introduction to global supply chain management in support of manufacturing and technical services, with emphasis on procurement, use of web-based information technology, logistics, and integration with JIT scheduling at the customer level.
3 credit hours.
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EGRM 6673 - Special Topics in Engineering Management
Prerequisite: Permission of the program coordinator. Current topics relevant to engineering management but focusing on specific themes including but not limited to technology leadership & entrepreneurship, conflict management & negotiation techniques, safety organization and management, corporate law (contracts and patents), and environmental laws and regulations.
3 credit hours.
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EGRM 6681 - Simulation Techniques and Applications
Prerequisite: EGRM 6609 and EGRM 6639 or equivalent. Review of the role of computer simulation in analyzing complex systems and operations. Emphasis on problem formulation, model building, input and output data analysis, experimentation and evaluation of alternative designs/processes in complex systems/operations. Case studies of successful implementations are reviewed together with guidelines for using state-of-the -art simulation software (currently ARENA in use) to solve system problems.
3 credit hours.
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EGRM 6690 - Research Project
Prerequisite: 15 graduate credits hours or permission of the program coordinator. Independent study and research focused on a problem of interest in either a work environment or in a community or non-profit organization. Guided by a faculty advisor, a project report is written that describes the problem, outlines the scope of work and presents recommendations and solutions in a professional manner. An oral presentation is made to program colleagues, a capstone experience ending the program of study
3 credit hours.
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EMGT 6612 - Business Crisis and Continuity Management
An introduction to the crisis management and organizational continuity from a private sector Business Crisis and Continuity Management (BCCM),and a public/private sector partnership perspective. Course topics and content reflect the changes in BCCM in the aftermath of the tragic events of September 11, 2001 and the lessons learned in recent disasters and catastrophes, particularly Hurricane Katrina.
3 credit hours.
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Emergency Management |
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EMGT 6601 - Principles of Emergency Management
This course focuses on the philosophical and theoretical underpinnings of the emergency management profession and the principles that define effective practice. The starting points are current definitions of emergency management, the mission and vision of the profession, and "The Principles of Emergency Management" developed by the Emergency Management Roundtable in 2007. The objective is to stimulate discussion of the core values that underlie emergency management practice in a democratic society and that are essential elements in emergency management professional education. Case studies, exercises, and discussions will be used to encourage critical review of the philosophy and principles of emergency management.
3 credit hours.
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EMGT 6602 - Principles and Practices of Hazard Mitigation
Prerequisite: EMGT 6601 This course will provide the student with an understanding of the principles and practice of hazard mitigation in the United States at the local, state, regional, and federal levels of governance, emphasizing the importance of avoiding or preventing future and recurring losses of life and damage to public and private property. Based on this understanding, a further objective of the course is to familiarize students with the tools, techniques, resources, programs, intergovernmental relationships, and broader social context involved in planning for and implementing hazard mitigation. Case studies, exercises, and discussions will be used to encourage critical review of the philosophy and principles of emergency management.
3 credit hours.
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EMGT 6603 - Catastrophe Readiness and Response
Prerequisite: EMGT 6602 Upon completion of this course, the student should be able to describe and discuss the characteristics of catastrophic events and the differences in strategies, techniques, and tools that are needed to prepare for and coordinate the response to catastrophes as compared to the disasters that form the core assumption of most modern emergency management work. This course is designed to help students step into a leadership role in catastrophe readiness and response. Case studies, exercises, and discussions will be used to encourage critical review of the philosophy and principles of emergency management.
3 credit hours.
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EMGT 6604 - Holistic Disaster Recovery: Creating a More Sustainable Future
Prerequisite: EMGT 6603 Educate students about sustainable disaster recovery, including the principles, concepts, processes and practice currently used in the United States. The course is designed to rely heavily on the use of case studies to clarify course objectives and explain recovery topics. Case studies, taken from across the country and addressing different hazards, will emphasize both examples of effective and ineffective recovery strategies. Course work will include examples that have occurred in New England and surrounding regions. This may facilitate additional student involvement.
3 credit hours.
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EMGT 6610 - Disaster Response Operations and Management
This course will examine the nature of disasters, the context of response operations in the United States, and the roles and responsibilities of various emergency management related actors. The role of technology and NIMS in effective post-disaster responses will also be discussed. Each student will be expected to gain a solid comprehension of common post-disaster problems and how first responders and emergency managers may overcome those challenges.
3 credit hours.
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EMGT 6624 - Social Dimensions of Disaster
Prerequisites: EMGT 6601 , EMGT 6602 , EMGT 6603 , EMGT 6604 . This course will provide an overview of empirical vs. theoretical approaches; human behavior in disaster, myths and reality; group disaster behavior; community social systems and disaster; cultures, demographics, and disaster behavior distinctions, and model-building in sociological disaster research.
3 credit hours.
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EMGT 6628 - Emergency Incident Management
Prerequisites: EMGT 6601 , EMGT 6602 , EMGT 6603 , EMGT 6604 . This course will provide a study of the effective organization and management of emergency resources at various fire and large-scale emergency incidents. Includes a review of national standards and federal regulations impacting emergency incident management.
3 credit hours.
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EMGT 6630 - Food Plain Management
Prerequisite: EMGT 6604 . This course examines flood plains as a resource and a location of risk and presents a wide range of management strategies. The course looks at flood plain management from multiple perspectives. It embraces the conservation and restoration of physical and biological systems, examines the adverse impacts from human developments, and also creates a policy framework that addresses these objectives.
3 credit hours.
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EMGT 6635 - Political and Policy Basis of Emergency Management
Prerequisite: EMGT 6604 . In this course, students will learn how public policy, public management, and politics are central to understanding how communities address emergency management. This course will introduce concepts and basic descriptive information about the political system within the context of disaster policy and will demonstrate how political factors play a role in many phases of the discipline of emergency management.
3 credit hours.
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EMGT 6690 - Emergency Management Research Project
Prerequisites: EMGT 6601 , EMGT 6602 , EMGT 6603 , EMGT 6604 . This course will provide the opportunity to integrate the knowledge and skills studied during the emergency management program by an exercise in accordance with the university's "Dissertation and Thesis Manual", 2nd edition.
3 credit hours.
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EMGT 6697 - Emergency Management Thesis Proposal and Research
Prerequisites: EMGT 6601 , EMGT 6602 , EMGT 6603 , EMGT 6604 and three approved electives. The thesis proposal is developed under the direction of the supervisor. The supervisor must formally approve the thesis proposal in accordance with the university's "Dissertation and Thesis Manual", 2nd edition.
3 credit hours.
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EMGT 6698 - Emergency Management Thesis Writing and Defense
Prerequisite: EMGT 6697 . Based on the proposal developed and approved in EMGT 6697 , students will complete the written thesis project and an oral thesis final exam in accordance with the university's "Dissertation and Thesis Manual", 2nd edition. If the student is not able to complete the full version of the manuscript by the end of the academic term, the university's incomplete policy and procedure will apply.
3 credit hours.
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Environmental Science |
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ENVS 6600 - Environmental Geoscience with Laboratory
Study of the geological systems important in understanding the causes of and solutions to environmental problems. Includes basic geological principles, examination of natural hazards, their causes and mitigation, and mineral, energy, and water resources. Laboratories include practical exercises, data collection, problem-solving, virtual field trips and case histories. Some weekend field trips may be required.
4 credit hours.
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ENVS 6601 - Principles of Ecology with Laboratory
Presentation of current topics in the various fields of ecology including community, population, ecosystem, and landscape ecology. Particular emphasis on those areas related to applied ecology. Field trips and laboratory sessions will focus on the quantitative evaluation of various ecological systems in terrestrial and aquatic habits, and on methods used in ecological assessment. Laboratory fee
4 credit hours.
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ENVS 6602 - Environmental Effects of Pollutants
Prerequisites: ENVS 6600 , ENVS 6601 , and undergraduate organic chemistry or graduate introduction to environmental chemistory (CHEM 6600 ). A survey of the demonstrated and suspected effects of air, water, and other pollutants on natural systems and on human welfare. Methods of studying and assessing effects are also presented.
3 credit hours.
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ENVS 6603 - Wetlands Ecology with Laboratory
Prerequisites: ENVS 6600 and ENVS 6601 . This course covers the ecology of saltwater and freshwater wetland systems. Linkages between the biotic, hydrolic, and chemical components of various wetland types will be emphasized. Wetland delineation, functional assessment of wetlands, and wetland creation and restoration will be among the topics discussed. Field trips and laboratory sessions will focus on the quantitative evaluation of the hydrology, soils, and biotic communities of various wetland types. Laboratory fee
4 credit hours.
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ENVS 6604 - Ecology of Inland Waters
Prerequisites: ENVS 6600 and ENVS 6601 . Advanced study of ecological processes of inland waters, both lotic and lentic. Some weekend field trips, or acceptable alternative, required.
3 credit hours.
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ENVS 6605 - Marine and Estuarine Ecology&Lab
Prerequisites: ENVS 6600 and ENVS 6601 . Prerequisites: ENVS 6600 , ENVS 6601 or permission of the instructor. Advanced study of ecological processes of estruaries and marine habitats and how human activities modify the structure and dynamics of these systems. The laboratory focuses on the characteristics of habitats along the Connecticut coast and in Long Island Sound and their environmental assessment.
4 credit hours.
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ENVS 6606 - Environmental Data Analysis
Prerequisites: 15 graduate hours and a previous course in statistics or permission of instructor. The application of analytic techniques to environmental data in the areas of applied ecology, environmental geology, and chemistry. These include applied univariate and multivariate statistics as well as geostatistical methods. Introduction to microcomputer software available for environmental analyses.
3 credit hours.
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ENVS 6607 - Environmental Reports and Impact Assessment
Prerequisites: ENVS 6600 AND ENVS 6601 AND CIVL 6606 including 21 graduate hours. A study of the EIS/EIA process including the regulatory framwork, how to prepare environmental reports and impact assessments, formats required for EIS and other common reports, data collection and presentation, planning and carrying out assessments, and text preparation. Some fieldwork may be required.
3 credit hours.
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ENVS 6608 - Landscape Ecology
Prerequisites: ENVS 6600 and ENVS 6601 . In-depth study of the characterisitcs and dynamics of terrestrial and aquatic ecosystems on a regional scale. Spatial relationships between ecosystems are examined with regard to natural ecologic and geologic functions and alterations due to human activities. Applications to land-use planning, resource management, conservation, and other environmental concerns are addressed via class projects.
3 credit hours.
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ENVS 6609 - Data Analysis in the Environmental and Biological Sciences
Prerequisites: 9 graduate hours and a previous course in statistics, or permission of instructor. The application of data analysis techniques in the environmental (applied ecology, environmental geology and chemistry) and biological (molecular biology, toxicology) sciences. These include applied univariate and multivariate statistics as well as geostatistical and non-detect methods. Extensive use of different types of computer software for data analyses.
3 credit hours.
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ENVS 6610 - Environmental Health
Prerequisite: ENVS 6601 or undergraduate biology major. Principles of public health with general emphasis given to environmental factors such as air and water pollutants, legal standards, and preventive measures and their relationships to public health.
3 credit hours.
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ENVS 6612 - Epidemiology
An introduction to the principles and methods of epidemiology. Concepts of disease, analysis of morbidity and mortality as well as observational and experimental techniques are considered. Illustrative examples concentrate on environmental issues.
3 credit hours.
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ENVS 6613 - Radioactivity and Radiation in the Environment
Prerequisites: ENVS 6600 and CHEM 6601 , or permission of instructor. Basic principles of nuclear structure and radioactivity; the interaction of radiation with matter and biological effects of radiation; natural and man-made sources of radiation in the environment. The second half of the course will focus on long-term environmental effects of radiation accidents (e.g., Chernobyl and others) and the problems of nuclear waste disposal, plutonium inventories from nuclear weapons, natural radon in buildings, and similar concerns. (See also PHYS 6613 .)
3 credit hours.
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ENVS 6615 - Toxicology
Prerequisite: introductory chemistry. Introduction to environmental and industrial toxicology; toxicologic evaluation; the mode of entry, absorption, and distribution of toxicants; the metabolism and excretion of toxic substances; interactions between substances in toxicology; toxicologic data extrapolation; particulates; solvents and metals; agricultural chemicals - insecticides and pesticides; toxicology of plastics; gases; food additives; plant and animal toxins; carcinogens, mutagens, and teratogens. (See also SH 615).
3 credit hours.
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ENVS 6616 - Human Health and Environmental Risk Assessment
Prerequisites: ENVS 6601 , CIVL 6606 , and ENVS 6615 . Introduction to application of human health and environmental risk assessment by environmental agencies. Principles of environmental risk assessment, legislative mandates for risk assessment, guidance documents, case studies, analysis and assessment procedures. Emerging developments in the field reviewed through class projects.
3 credit hours.
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ENVS 6617 - Subsurface Assessment
Prerequisites: ENVS 6600 , CHEM 6601 , and CIVL 6606 . Introduction to conducting subsurface contamination assessments. Includes related environmental regulations and liabilities, site hydrogeology, chemical characterization of contaminants, field methodologies, risk assessments, and site contamination remediation. Some fieldwork required.
3 credit hours.
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ENVS 6618 - Hazardous Materials Management
Prerequisites: CIVL 6606 and undergraduate organic chemistry or graduate introduction to environmental chemistry (CHEM 6600 ). The multidisciplinary facets of managing hazardous materials and wastes. Integrates specialized knowledge from the fields of environmental biology, chemistry, engineering, hydrogeology, and public health in the techniques used to maintain compliance with environmental standards. Includes regulatory framework, practical exercises, and concepts of sound practices of hazardous waste management.
3 credit hours.
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ENVS 6620 - Advanced Environmental Geology
ENVS 6600 or equivalent Prerequisite: ENVS 6600 or undergraduate course in geology or permission of instructor. Qualitative and quantitative examination of the application of geology to environmental problems including natural hazards and their remediation, site selection for various types of land uses, geology of waste disposal sites, and natural resource evaluation. A class project for a local government or environmental agency will demonstrate practical application of these principles and will be used to examine the process of project planning and managment, generation, and the use of geologic data, report preparation and presentation. Laboratories and some weekend fieldwork required.
4 credit hours.
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ENVS 6621 - Hydrology
Prerequisite: undergraduate course in physics, geology, hydraulics, or limnology or permission of instructor. Lectures cover basic hydrologic theory including nature and chemical behavior of water, precipitation and evapotranspiration, interception, surface water, groundwater supply and treatment, and water law. Other topics may include irrigation, flood control, karst hydrology, and water chemistry. Required laboratories cover field measurement, sampling and problem-solving techniques. Some weekend fieldwork required.
4 credit hours.
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ENVS 6622 - Groundwater Geology
Prerequisites: ENVS 6600 or ENVS 6621 or CIVL 6620 , or permission of instructor. Physical and chemical behavior of water occuring in rock and soil (groundwater). Covers the geologic environments in which groundwater exists, groundwater movement and chemistry, karst hydrology, use of groundwater as a water supply, groundwater field investigations and testing, contaminant transport in groundwater, and the nature and use of groundwater flow and contaminant models. Laboratories will include practical experience in field techniques (drilling, geophysical, well, logging, etc.), modeling, and data analysis.
4 credit hours.
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ENVS 6625 - Geomorphology
Prerequisite: ENVS 6600 or a previous college-level course in physical geology or geography, or permission of instructor. Study of landforms and the processes that produce them including the operation of erosional and depositional processes in a variety of geologic settings (fluvial, coastal, glacial, periglacial, karst, and arid). Also covers the relationship of landforms and processes to the solution of environmental problems. Lectures cover processes; required laboratories focus on landform recognition and geomorphic process interpretation using maps and aerial photographs. Two required field trips (one 2-day and one 3-day) with shared transporation and costs.
4 credit hours.
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ENVS 6626 - Glacial Geology
Prerequisite: ENVS 6600 or ENVS 6625 or a previous college-level course in physical geology or geography or permission of instructor. Glacial processes, landforms, materials, and history. Relationships between various glacial landforms (identifiable on topographic maps) and the materials that comprise them. Two required field trips in New England (one 1-day and one 2 1/2-day) with shared transportation and costs.
3 credit hours.
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ENVS 6627 - Soil Science
Prerequisite: ENVS 6600 or college level course in physical geology or geography or permission of instructor. Properties, occurence, and management of soil as a natural resource. Covers the chemistry, physics, morphology, and mineralogy of soils and their genesis and classification. Soil properties will be related to their role in environmental problem solving and decision making.
3 credit hours.
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ENVS 6632 - Field Geology of the Northeast
Prerequisite: ENVS 6600 or a previous college-level course in geology or permission of instructor. Intensive training in geological field observation and interpretation in a variety of geologic settings. Weekly class meetings cover field techniques and localities. Five required field trips (three 1-day, one 3-day, one 4-day) will focus of site geology, geomorphology, and environmental problems as well as field observation and interpretation. Transportation and costs will be shared.
4 credit hours.
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ENVS 6633 - Selected Topics in Field Geology
Prerequisite(s): ENVS 6600 or undergraduate course in geology; other prerequisites depend on specific course topic. Selected field studies and trips of special interest. Credit varies depending on length of trip or investigation. May be taken more than once. 1-4 credits.
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ENVS 6634 - Environmental Education Instructor Clinic
Prerequisite: One of the following: a college course in geology, biology, ecology, or science education OR permission of instructor. A course (conducted in the field) about teaching environmental education and natural history topics. Students receive intensive field training in natural history and a variety of environmental education instruction techniques. Lab Fee. May be taught any term.
3 credit hours.
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ENVS 6640 - Introduction to Geographical Information Systems
Survey of GIS technology, research, and applications in natural resource management, environmental assessment, urban planning, business, marketing and real estate, law enforcement, public administration, and emergency preparedness. Includes critical evaluation, case studies, and computer demonstrations.
3 credit hours.
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ENVS 6641 - Geographical Information System Techniques and Applications I
Prerequisites: working knowledge of PC-based computing and consent of instructor/program coordinator. First of a two-course sequence of GIS technology and applications. Laboratory exercises using both raster- and vector-based GIS systems. Hardware and software compenents of GIS; data acquisition, input, and manipulation; cartographic output; report generation.
3 credit hours.
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ENVS 6642 - Geographical Information System Techniques and Applications II
Prerequisite: ENVS 6641 or consent of instructor. Second of a two-course sequence on GIS technology and applications. Laboratory exercises using both raster- and vector-based GIS systems. Advanced GIS techniques, spatial analysis and modeling for a variety of applications (e.g., environmental science, business, planning), development of GIS systems.
3 credit hours.
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ENVS 6643 - Advanced Applications of GIS
Prerequisite: ENVS 6642 or consent of instructor. Study of advanced GIS techniques for spatial analysis and management in a variety of application areas (e.g. environmental science, municipal and utilities management). Includes GIS development, GIS modeling, advanced spatial analysis (e.g. geostatistics) and VBA/ArcObjects GIS programming. Students collaborate on a real world project to design and implement a complete GIS application, and conduct individual GIS projects of interest to them, applying techniques learned in class.
3 credit hours.
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ENVS 6650 - Environmental Microbiology
Prerequisites: undergraduate biology major, or a course in biology and a course in organic chemistry. Interaction of microorganisms (principally bacteria and fungi) and their environments, stressing transformations they may accomplish depending on physical and chemical circumstances. Practical application of microbes in sewage and other soil/wastewater cleanup, biodeterioration, pest control, and production of useful products. Laboratory microcosm projects required.
3 credit hours.
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ENVS 6651 - Bioremediation Science
Prerequisite: ENVS 6650 or permission of instructor. Study of the use of microorganisms to decontaminate/remediate soil, groundwater, and air emissions containing various organic compounds. Includes survey of applicable microbial activities and growth parameters, classes of organic compounds that can be degraded/modified, and application of latest bioremediation technologies for cleanup. Laboratory involves review of site/hydrogeological plans for efficiency of bioremediation, visitation of available bioremediation sites (biopiles, bioventing, biosparging, etc.), and group projects involving site(s) currently undergoing bioremediation.
4 credit hours.
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ENVS 6670 - Selected Topics
A study of selected issues of particular interest to the students and instructor. May be taken more than once.
3 credit hours.
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ENVS 6690 - Research Project
Prerequisite: permission of the instructor. Independent study under the supervision of an advisor.
1 - 3 credit hours.
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ENVS 6695 - Independent Study I
A planned program of individual study under the supervision of a member of the faculty.
0 credit hours.
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ENVS 6696 - Independent Study II
A continuation of Independent Study I.
0 credit hours.
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ENVS 6698 - Thesis I
Prerequisite: 15 graduate hours. Periodic meetings and discussions of the individual student's progress in the preparation of a thesis.
3 credit hours.
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ENVS 6699 - Thesis II
Prerequisite: ENVS 6698 A continuation of Thesis I.
3 credit hours.
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Engineering Science |
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ENSC 6605 - Introduction to Digital Electronics
Prerequisites: College physics, including electricity and magnetism. An introductory course in digital electonics intended for K-14 teachers based on "Project Lead the Way" curriculum. Covers both theoretical and practical skills in the pedagogical and content domains needed to teach classes in this field. Laboratory assignments include computer simulation of circuits and the writing of phototype circuits. Lectures touch on printed circuit board design and implementation of digital circuits. Attitudes, procedures, and skills related to safety are addressed. This course may not be taken by engineering students for graduate credit. Lecture: 3 credits; Lab: 1 credit
3 credit hours.
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ENSC 6610 - Engineering Graphics with Solid Modeling
Prerequisites: Modern Algebra with Trigonometry. An introduction to computer-aided design with solid modeling intended for K-14 teachers based on the "Project Lead the Way" curriculum. Covers both theoretical and practical skills in the pedagogical and content domains needed to teach classes in this field are addressed. Emphasis is on advanced 2-D construction, 3-D solid modeling, and design drawing generation. A PC-based CAD package is used for course work. Attitudes, procedures, and skills related to safety are addressed. This course may not be taken by engineering students for graduate credit. Lecture: 3 credits, Lab: 1 credit
3 credit hours.
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Executive MBA |
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EMBA 9970 - Viability: Building the Foundation
Multidisciplinary, core business management fundamentals. Topic list includes organizational behavior, operations, accounting & finance, economics, marketing, quantitative methods and analysis, information systems, and strategy fundamentals.
9 credit hours.
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EMBA 9971 - Cultural Transformation: Building the Team
Prerequisite: EMBA 9970 . Managing human behavior in organizations. Leading change and innovation in cross-cultural environments. Legal and ethical business practices in contemporary society. Applied project. Topic list includes organizational behavior, cases in organization behavior, business law, and ethics.
9 credit hours.
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EMBA 9972 - Maketing Management: Connecting to the Customer
Prerequisite: EMBA 9971 . Operations management; performance, practice and transformation. Contemporary marketing practices; understanding the customer. Strategic marketing and development. Applied project. Topic list includes operations management, marketing, and cases in marketing. 9 credit hours.
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EMBA 9973 - Sustainability, Environmental Consciousness and Global Economics
Prerequisite: EMBA 9972 . Analysis of emerging global standards, sustainability, and environmental consciousness. Global economics environment and decision-making. Economics industry analysis and the competitive environment. International business. Applied project. Topic list includes environment and sustainability, economics and cases in marketing.
11 credit hours.
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EMBA 9974 - Measurement: Advancing Shareholder Value
Prerequisite: EMBA 9973 . Management accounting and control systems. Integrated financial systems. Resource acquisition, allocation, and ethics. Applied project. Topic list includes accounting, finance, and cases in accounting and finance. 9 credit hours.
9 credit hours.
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EMBA 9975 - Leadership: Advancing Company Value
Prerequisite: EMBA 974 Corporate and social responsibility. Strategic thinking. Planning and implementing strategic decisions. Strategic management project. Topic list includes corporate and social responsibility, strategy, project and presentations, business simulation preparation, business simulation, and closing session.
9 credit hours.
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Finance |
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FINC 6601 - Financial Management
Prerequisites: ACCT 6620 , ECON 6601 , and QANL 6604 . An examination of the valuation, investment, and financing of the firm and its business activities. Includes valuation of investment under uncertainty and its implications on investment strategy; the cost of capital and capital structure and its implications for financing strategy; leasing; dividend policy; fundamental risk management concepts and implications; and (if time is available) mergers, acquisitions, divestiture, the market for corporate control and the hedging of corporate risk exposure.
3 credit hours.
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FINC 6602 - Finance Strategy and Valuation
Prerequisites: ACCT 6620 , ECON 6601 or ECON 6604 , and FINC 6601 and QANL 6604 . Examination of valuation, investment, and financing of the firm and their implications for strategic decision making. Topics include objective of the firm and agency theory; strategies for the investment decision; short-term financial management strategies; theories of choice and decision making; state preference theory and its implications for planning and strategy; risk measurement and decision making; derivatives and their application to corporate risk management and planning; efficient capital markets and value creation; capital structure; valuation models and dividend policy; merger and acquisition strategies; the leasing decision and business planning; international financial management strategies.
3 credit hours.
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FINC 6603 - Financial Management with Engineering Applications
Prerequisites: EGRM 6607 and EGRM 6609 or equivalent. An examination of the valuation, investment, and financing of the firm and its business activities. This includes valuation of investment under uncertainty and implications for investment and strategy; the cost of capital and capital structure and implications for financing strategy; leasing; dividend policy; fundamental risk management concepts and implications; and mergers, acquisitions, divestiture, the market for corporate control, and the hedging of corporate risk exposure. Engineering applications. For College of Engineering Students only.
3 credit hours.
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FINC 6605 - Data Evaluation and Modeling
Prerequisite: FINC 6601 . Introduction to the quantitative models used in finance. Application of statistical and deterministic models to financial decision making. Use of electronic speadsheets and statistical software.
3 credit hours.
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FINC 6610 - Capital Market Theory
Prerequisite: FINC 6601 A review of modern portfolio theory. Includes theory of choice under certainty and uncertainty; portfolio analysis; capital asset pricing model; arbitrage pricing model; global investing and portfolio formation; and portfolio performance measurement, evaluation, and selection.
3 credit hours.
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FINC 6611 - Equity Market Valuation and Analysis
Prerequisite: FINC 6601 . Integrated review of investment opportunities in the equity markets. Includes capital market efficiency and arbitrage; valuation models and individual security analysis and valuation; industry analysis; aggregate market analysis; capital market theory; global investing and portfolio performance; alternative investments - analysis and valuation; and introduction to regulation and professional standards of ethics. Application of investment management to actual student-managed portfolio.
3 credit hours.
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FINC 6612 - Applied Portfolio Management
Prerequisite: FINC 6601 . Course describes and demonstrates the dynamic decision-making process of portfolio management. The portfolio construction process, including the formulation of objectives, constraints, and preferences; the ongoing monitoring process; and conducting a performance evaluation. Special attention to recent developments in dynamic portfolio applications.
3 credit hours.
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FINC 6613 - Derivative Market Analysis and Trading Techniques
Prerequisite: FINC 6601 . An examination of financial futures and options markets; futures and options pricing and hedging; trading techniques.
3 credit hours.
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FINC 6620 - Capital Markets and the Valuation of Fixed Income Securities
Prerequisite: FINC 6601 . The function and structural trends of financial markets. Analysis of the flow of funds; foundation of interest rates; term structure of interest rates; determinants of interest rates; global financial markets.
3 credit hours.
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FINC 6625 - Advanced Capital Market Issues
Prerequisites: FINC 6605 and FINC 6620 . An examination of current practices and new developments in the capital markets. Various topics will be selected that highlight recent developments. The primary areas of selection will be financial and capital market innovations, monetary policy, domestic and international money markets, and techniques for analyzing financial markets. Students will be required to complete a major, independent research project.
3 credit hours.
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FINC 6630 - Corporate Financial Analysis and Applications
Prerequisite: FINC 6601 . The examination of short-term financial management, mergers and acquisitions, corporate restructuring, financial distress, corporate risk management, leasing, and hybrid corporate securities.
3 credit hours.
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FINC 6631 - Management of Financial Services
Prerequisite: FINC 6601 . An examination of operational techniques and strategies relevant to financial management in the financial services industry.
3 credit hours.
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FINC 6632 - International Financial Management
Prerequisite: FINC 6601 . Focus on international capital markets, determinants of foreign exchange rates, and hedging techniques. Major emphasis on managing and measuring accounting, economic, and operations exposure; managing political risk; international capital budgeting and short-term financial management; international financing of investment.
3 credit hours.
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FINC 6635 - Advanced Corporate Financial Management Issues
Prerequisites: FINC 6602 and FINC 6605 . An examination of advancements and techniques in financial managment, highlighting recent developments. The primary areas of selection will be value creation, human capital, globalization, risk management, and strategic management. Students will be required to complete a major research project.
3 credit hours.
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FINC 6670 - Selected Topics
A study of selected issues of particular interest to students and instructor. May be taken more than once.
3 credit hours.
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FINC 6681 - CFA Exam Review
Prerequisites: FINC 6601 , ACCT 6620 , ECON 6601 , QANL 6604 (or equivalents from another school). This course reviews the materials of the Chartered Financial Analyst (CFA) Level I or II exams. The goal of the course is to prepare the student to pass the CFA Level I or II exams.
3 credit hours.
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FINC 6690 - Research Project
Prerequisite: 15 graduate hours or permission of the instructor. Independent study under the supervision of an advisor.
3 credit hours.
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FINC 6691 - Masters Project in Finance
Prerequisite: 15 credits in the MS Finance program, or permission of the instructor. Independent or group study under the supervision of an advisor in the MS Finance program leading to creation and presentation of a large individual analyst report in the areas of corporate finance, investments, derivatives, or financial risk management.
3 credit hours.
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FINC 6693 - Internship
Prerequisites: six credits of advanced finance coursework and approval of program coordinator/advisor. A program of field experience in a corporate or financial services organization.
3 credit hours.
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FINC 6695 - Independent Study I
A planned program of individual study under the supervision of a member of the faculty.
3 credit hours.
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FINC 6696 - Independent Study II
Prerequisite: FINC 6695 A continuation of Independent Study I.
3 credit hours.
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FINC 6698 - Thesis I
Prerequisite: 15 graduate hours. Periodic meetings and discussions of the individual student's progress in the preparation of a thesis.
3 credit hours.
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FINC 6699 - Thesis II
A continuation of Thesis I.
3 credit hours.
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Forensic Science |
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FORS 6612 - Principles of Forensic Science I
Forensic science is a discipline that is broad and encompasses many different areas. A successful forensic scientist should have an understanding of what each field is capable of achieving and how it can assist them if necessary. This course will give the student an overview of the major disciplines of forensic science and how each can be used in a criminal investigation. Furthermore, the course will examine how evidence is identified and how the scientific method is employed to analyze evidence.
3 credit hours.
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FORS 6613 - Principles of Forensic Science II
Prerequisite: FORS 6612 . This course is a continuation of Principles of Forensic Science I. Topics in the course are geared toward the exploration of many of the major disciplines within forensic science. The focus of this course is to give general information about the disciplines, how analysts in those areas examine evidence, and how the results can be utilized to advance an investigation.
3 credit hours.
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FORS 6614 - Survey of Forensic Science
An introductory survey of forensic sciences and criminalistics, crime scene procedures and documentation, and methods of laboratory analysis for all forensic science students.
3 credit hours.
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FORS 6615 - Capillary Electophoresis
This course is one in a series of offerings designed to meet the changing educational needs in specialized areas of forensic technology. It addresses theoretical and practical aspects of capillary electrophoresis as a new tool applied to the forensic sciences. The course will cover the theoretical principles of capillary electrophoresis, how to use and troubleshoot the instrumentation as well as the analysis of different types of samples commonly found as evidence in forensic laboratories. This course typically runs on an accelerated schedule and includes a significant laboratory component.
3 credit hours.
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FORS 6616 - Advanced Crime Scene Investigation
An in-depth study of crime scene procedures including recognition, protection, documentation, and collection of physical evidence; scene documentation, scene search procedures; and reconstructions from evidence and scene patterns.
3 credit hours.
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FORS 6617 - Forensic Expert Testimony
Prerequisite or Co-requisite: FORS 6614 This course will provide information related to the various aspects of expert witness testimony, from "marketing" skills and good communication techniques to managing difficult questions and ethical issues. The expectations of the legal and scientific communities will be explored using case examples and exercises that point to the conflicts that sometimes may arise from these different perspectives. Students will participate in a moot court testimony session in which they will demonstrate their expert witness knowledge and ability to effictively communicate in a court setting.
3 credit hours.
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FORS 6618 - Forensic Photography
Prerequisite/Co-requisite: FOR614. This course will explore the use of imaging techniques as they relate to crime scene and evidence documentation. The first portion of the course focuses on film/digital image capture and the second on digital image processing using Adobe Photoshop and other software. The course includes extensive hands-on experience both in photography as well as image processing labs. Topics include but are not limited to: theory, techniques, crime, scenes, evidence, macro, alternate light energy, photogrammetry, image clarification and legal considerations.
3 credit hours.
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FORS 6619 - Fingerprint Analysis
Prerequisite: FOR614. This is an advanced course in the science of fingerprints. The history of fingerprints, development and recognition of fingerprints, collection and documentation of fingerprint evidence, various processing techniques, fingerprint comparison and identification, taking inked fingerprint impressions and the latest advances in fingerprint identification will be discussed during this course.
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FORS 6620 - Advanced Criminalistics I
Corequisite: CJ 621 Corequisite: FORS 6621 . The comparison and individualization of physical evidence are presented in lectures and carried out in the laboratory. The theories and practice of microscopic, biological, immunological, and chemical analysis are applied to the examination of blood, semen, and other body fluids.
3 credit hours.
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FORS 6621 - Advanced Criminalistics Laboratory I
Prerequisite and co-requisite: FORS 6614 . The biological identification and individualization of physical evidence as carried out in the laboratory. The theories and practice of microscopic, biological, immunological, and chemical analysis are applied to the examination of blood, semen, and other body fluids and biological evidence. Basic serological examinations and DNA typing of single source samples will be performed and data interpreted. Laboratory fee required.
3 credit hours.
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FORS 6622 - Forensic Engineering I
Introduction to the field of forensic engineering, and the first of a two-course sequence. Basic engineering relevant to failure analysis and root cause assessment, including the failure of complex systems is discussed. Other topics covered include: concepts of stress, strain, and fatigue, buildings and structures and their performance when faced with natural and manmade extreme forces. Automotive engineering, crashes and component and systems failures, aircraft failure and fire and explosion analyses are also covered.
3 credit hours.
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