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| |
-
ENGR 311 - Fluid Mechanics
Laws dealing with fluid statics and dynamics; fluid pressure and forces; laminar and turbulent flow; hydraulic measurements; flow in closed conduits, open channels, and around immersed bodies.
Prerequisite: MATH 292, ENGR 302 or ENGR 303.
Lec. 3Cr. 3
|
| |
-
ENGR 312 - Fluid Mechanics Laboratory
Laboratory work and demonstrations with water machinery to study conditions and effects; reports on results of studies. Oral and written reports are required.
Prerequisite: ENGR 311.
Lab. 3Cr. 1
|
| |
-
ENGR 315 - Heat Transfer
Application of principles of heat transfer by conduction, radiation, and convection to analysis and design problems.
Prerequisite: ENGR 311 or permission of department head.
Lec. 3Cr. 3
|
| |
-
ENGR 318 - Engineering Measurements
Theory and use of instruments for engineering measurements. Pressure, temperature, flow, strain, speed, and electrical measurements. Computer aided statistical analysis of engineering data.
Prerequisites: ENGR 109 and ENGR 211.
Lab. 3Cr. 1
|
| |
-
ENGR 342 - Engineering Economics
Introduction to economic decision making. Considers alternatives from an economic standpoint. Also considers taxes and economic forecasting both in private industry and in government enterprises.
Prerequisite: Completed 20 hours of engineering courses (ENGR, CHEG, CIEN, ELEN, MEEN) or permission of department head.
Lec. 3Cr. 3
|
| |
-
ENGR 350 - Engineering Practice
Practical engineering experience in industry for one semester under the supervision of an engineer. A written report by the student and an evaluation by the engineering supervisor are required.
Notes
May be repeated for credit. Credit may not be used to fulfill degree requirements.
Prerequisites: Participation in the Engineering Co-op Program and permission of department head.
Cr. 3
|
| |
-
ENGR 418 - Virtual Instrumentation
Introduction to instrumentation and data acquisition hardware and software. Using graphical programming language for instrumentation control software, visual modeling, interactive analysis, and data visualization.
Notes
No duplicate credit for ENGR 418 and ENGR 518.
Prerequisites: ENGR 211 and permission of department head.
Lec. 2 Lab. 3Cr. 3
|
| |
-
ENGR 430 - Systems and Control
Modeling of processes and systems. Principles of feed-back control. Stabilities, transient responses, and steady-state responses. Root-locus technique and frequency technique.
Prerequisite: MATH 301, ENGR 211, and ENGR 302 or ENGR 303.
Lec. 3Cr. 3
|
| |
-
ENGR 431 - Project Management
Methods of project management to include inspection, documentation and scheduling with Critical Path Method (CPM) and Program Evaluation Review Technique (PERT).
Notes
No duplicate credit for ENGR 431 and CIEN 431, MEEN 431, or ENGR 531.
Prerequisite: Senior standing or permission of department head.
Lec. 3Cr. 3
|
| |
-
ENGR 433 - The Engineering Profession
Professional registration, ethics, employment practices, legal aspects of engineering, professional societies, and continuing education.
Prerequisite: Enrolled in or have completed ENGR 490.
Lec. 1Cr. 1
|
| |
-
ENGR 435 - Fundamentals of Robotics
Present and future use of robotics. Theory, design, operation and programming of robotics. Interfacing of robotics with computers and other industrial equipment.
Notes
No duplicate credit for ENGR 435 and MEEN 435.
Prerequisite: ENGR 302 or ENGR 303.
Lec. 2 Lab. 3Cr. 3
|
| |
-
ENGR 445 - Continuous Improvement (Kaizen)
Introduction to the concept of continuous improvement. Steps to be taken, important areas in each step. Problem solving techniques that adopt total quality concept will be discussed. Many new practices being adopted at key manufacturing sectors in the world will be introduced, discussed, and practiced in classes. Includes FMEA (Failure Mode and Effect Analysis), DFMA (Design for Manufacturing and Assembly), and TQC (Total Quality Control).
Notes
No duplicate credit for ENGR 445 and ENGR 545.
Prerequisite: Permission of department head.
Lec. 3Cr. 3
|
| |
-
ENGR 450 - Advanced Engineering Practice
Continuation of ENGR 350. Advanced project assignment as agreed upon by the instructor and supervising engineer with written report graded by both.
Notes
May be repeated for credit. Credit may be earned for ENGR 450 and ENGR 550. Credit may not be used to fulfill degree requirements.
Prerequisite: ENGR 350 or permission of department head.
Cr. 3
|
| |
-
ENGR 452 - Renewable Energy Technologies
Introduction to various renewable energies, including solar, wind, biomass, and fuel cell, and Stirling engine. Performance comparison, cost effectiveness, overall electric generation cost and market potential evaluation. Technical issues, suggested solutions, and system optimization.
Notes
No duplicate credit for ENGR 452 and ENGR 552, MEEN 430 or MEEN 530.
Prerequisite: ENGR 207 or permission of department head.
Lec. 3Cr. 3
|
| |
-
ENGR 456 - Engineer’s Role in Public Policy
Identifying, understanding, and implementing public policies of primary concern to engineers. Influencing public policy development. Critical examination of position statements developed by professional societies and trade associations. Development of issue management strategies based on credible engineering analysis.
Notes
No duplicate credit for ENGR 456 and 556.
Prerequisite: Credit or registration for ENGR 490 or permission of department head.
Lec. 3Cr. 3
|
| |
-
ENGR 475 - Systems and Control Laboratory
Measurement of system parameters and verification of feed-back system responses. Applications of PLCs.
Prerequisite: Credit or registration for ENGR 430.
Lab. 3Cr. 1
|
| |
-
ENGR 481 - Topics in Engineering
Topics in Chemical, Civil, and Mechanical Engineering.
Notes
May be repeated as topics vary to accrue a total of nine hours. No duplicate credit for ENGR 481 and ENGR 581 of the same topic.
Prerequisite: Permission of department head.
Lec. 3Cr. 3
|
| |
-
ENGR 490 - Senior Design Project I
Principles of design including development of project specifications, project management, and project documentation. Students are required to identify a project and develop preliminary specifications and plans for executing the project in ENGR 491.
Notes
No duplicate credit for ENGR 490 and CIEN 490 or ELEN 400 or MEEN 490.
Corequisite: MEEN 402. Prerequisites: Senior standing and credit for or registration in CIEN 402, CIEN 416, and CIEN 417; or ELEN 355; or ELEN 362; or CHEG 403.
Lab. 3Cr. 1
|
| |
-
ENGR 491 - Senior Design Project II
Capstone design course emphasizing the decision-making process in which the basic sciences are applied to convert resources optimally to meet a stated engineering design objective.
Notes
No duplicate credit for ENGR 491 and CIEN 491 or ELEN 401 or ELEN 402 or MEEN 491.
Prerequisite: ENGR 490 and MEEN 402.
Lec. 1 Lab. 6Cr. 3
|
| |
-
ENGR 518 - Virtual Instrumentation
Introduction to Instrumentation and data acquisition hardware and software. Graphical programming language for instrumentation control software, visual modeling, interactive analysis, and data visualization.
Notes
No duplicate credit for ENGR 518 and ENGR 418.
Lec. 2 Lab. 3Cr. 3
|
| |
-
ENGR 531 - Project Management
Methods of administration of engineering projects including inspection, contract and specifications analysis, time scheduling with critical path method (CPM) and Program Evaluation and Review Techniques (PERT) and legal aspects of documentation. Oral and written reports are required.
Notes
No duplicate credit for ENGR 531 and ENGR 431, CIEN 431, or MEEN 431.
Prerequisite: Graduate standing.
Lec. 3Cr. 3
|
| |
-
ENGR 545 - Continuous Improvement (Kaizen)
Introduction to the concept of continuous improvement. Steps to be taken, important areas in each step. Problem solving techniques that adopt total quality concept will be discussed. Many new practices being adopted as key manufacturing sectors in the world will be introduced, discussed, and practiced in classes. These include FMEA (Failure Mode and Effect Analysis), DFMA (Design for Manufacturing and Assembly), and TQC (Total Quality Control). Term paper and class presentation are required.
Notes
No duplicate credit for ENGR 545 and ENGR 445.
Prerequisite: Permission of department head.
Lec. 3Cr. 3
|
| |
-
ENGR 550 - Advanced Engineering Practice
Advanced project assignment as agreed upon by the instructor and supervising engineer with written report graded by both.
Notes
Credit may be earned for ENGR 450 and ENGR 550. Credit may not be used to fulfill degree requirements.
Prerequisite: Permission of department head.
Lec. 3Cr. 3
|
| |
-
ENGR 552 - Renewable Energy Technologies
Introduction to various renewable energies, including solar, wind, biomass, and fuel cell, and Stirling engine. Performance comparison, cost effectiveness, overall electric generation cost and market potential evaluation. Technical issues, suggested solutions, and system optimization.
Notes
No duplicate credit for ENGR 552 and ENGR 452, MEEN 430 or MEEN 530.
Prerequisite: ENGR 207 or permission of department head.
Lec. 3Cr. 3
|
| |
-
ENGR 556 - Engineer’s Role in Public Policy
Identifying, understanding, and implementing public policies of primary concern to engineers. Influencing public policy development. Critical examination of position statements developed by professional societies and trade associations. Development of issue management strategies based on credible engineering analysis. Report required.
Notes
No duplicate credit for ENGR 556 and 456.
Prerequisite: Permission of department head.
Lec. 3Cr. 3
|
| |
-
ENGR 581 - Topics in Engineering
Topics in Chemical, Civil, and Mechanical Engineering. May be repeated as topics vary to accrue a total of nine hours. Report required in advanced academic content, written and/or oral.
Notes
No duplicate credit for ENGR 581 and ENGR 481 of the same topic.
Prerequisite: Permission of department head.
Lec. 3Cr. 3
|
| |
-
ENGR 610 - Mastering Engineering Practices
Develop understanding and skills relevant to the important technical and non-technical issues facing the engineer in the modern competitive global environment. Includes Engineering Practices, Management of Technology, Engineering Design and Safety, Total Quality Management, Project Engineering, Technology Transfer Ethics, Intellectual Property, Professionalism. Importance of codes and standards, technical writing and presentations, working in teams, public policies in engineering practices and issues facing the modern industrial environment.
Prerequisite: Permission of department head.
Lec. 3Cr. 3
|
| |
-
ENGR 615 - Engineering Systems
Decision and systems analysis theories as applied to engineering problems. Techniques include linear and non-linear programming, modeling and simulation, and networking.
Lec. 3Cr. 3
|
| |
-
ENGR 625 - Advanced Analysis
Review of selected topics in advanced mathematics with emphasis on the solution of applied engineering problems.
Lec. 3Cr. 3
|
| |
-
ENGR 690 - Engineering Law
Legal aspects of engineering projects, including preparation of specific paragraphs in contracts and specifications, administration of contracts, settlement of contract disputes, and appeals processes.
Lec. 3Cr. 3
|
| |
-
ENGR 699 - Thesis
Student must register for the thesis course during each regular semester the thesis is in progress. Student must be enrolled in Thesis the semester the thesis is completed and approved by the examining committee.
Cr. 1-6
|
| |
-
ENSC 101 - General Environmental Science I
Principles and concepts of environmental science with emphasis on basic ecology, natural communities, human populations, and resource conservation, agriculture, risk, and toxicology.
Lec. 3Cr. 3
General Education Gen. Ed. 5
|
| |
-
ENSC 102 - General Environmental Science II
Principles and concepts of environmental science with emphasis on climate, air pollution, water resources and pollution, energy, and waste management.
Lec. 3Cr. 3
General Education Gen. Ed. 5
Writing Enriched Course WE
|
| |
-
ENSC 110L - General Environmental Science Laboratory
Collection and analysis of data used to assess environmental quality.
Lab. 2Cr. 1
|
| |
-
ENSC 201 - Geophysical Pollution
Introduction to man’s relationship to the atmosphere, hydrosphere, and lithosphere.
Prerequisites: ENSC 101 or ENSC 102.
Lec. 3Cr. 3
|
| |
-
ENSC 215 - Environmental Health
Environmental health issues including environmental standards, disasters, terrorism, economics, nationwide monitoring networks, workplace injury control, radiation protection, and epidemiology.
Lec. 3Cr. 3
|
| |
-
ENSC 301 - Fundamentals of Industrial Hygiene
Effects and control of workplace exposure to solvents, particulates, ionizing and nonionizing radiation, noise, and temperature extremes.
Lec. 3Cr. 3
|
| |
-
ENSC 312 - Water and Wastewater
Role of microorganisms in water and wastewater.
Notes
No duplicate credit for ENSC 312 and BIOL 312 or MBIO 212, or ENSC 212.
Prerequisite: BIOL 211.
Lec. 3 Lab. 2Cr. 4
|
| |
-
ENSC 350 - Environmental Problem Solving
Realistic environmental problems are reduced to quantifiable form for solution. Using approximation methods and elementary mathematical models, problems are solved in areas of water pollution, global nutrient cycling, atmospheric contamination, energy transfer, acid rain, climatology, and population growth.
Prerequisites: ENSC 102, CHEM 102, MATH 170, MATH 175, and PHYS 202.
Lec. 3Cr. 3
|
| |
-
ENSC 361 - Microbial Ecology
Study of the ecologic principles as they apply to microorganisms and their environments. Discussions include such phenomena as antagonism, commensalism, symbiosis, and parasitism.
Notes
No duplicate credit for ENSC 361 and BIOL 361.
Prerequisite: BIOL 211.
Lec. 3 Lab. 2Cr. 4
|
| |
-
ENSC 403 - Solid Waste Management
Solid waste generation, handling, collection, transfer, and processing. Resource recovery and disposal alternatives.
Notes
No duplicate credit for ENSC 403 and ENSC 503.
Prerequisite: ENSC 102.
Lec. 3Cr. 3
|
| |
-
ENSC 404 - Introduction to Water Pollution
Principles of water pollution. Eutrophication, pesticides, toxic organics, heavy metals, and radioactivity are emphasized.
Notes
No duplicate credit for ENSC 404 and ENSC504.
Prerequisite: BIOL 211.
Lec. 3Cr. 3
|
| |
-
ENSC 406 - Environmental Emergency Planning and Management
Theory and practice of preparing for and managing responses to the environmental aspects of emergencies associated with industrial/municipal operations, transportation incidents, and natural disasters.
Notes
Duplicate credit will not be given for ENSC 406 and ENSC 506.
Prerequisite: ENSC 201 or permission of department head.
Lec. 3Cr. 3
|
| |
-
ENSC 415 - Radiation Protection
General concepts of radiobiology and protection of personnel against radiation in field laboratories.
Notes
No duplicate credit for ENSC 415 and ENSC 515.
Prerequisite: Senior standing.
Lec. 3Cr. 3
|
| |
-
ENSC 420 - Introduction to Air Pollution
Introductory study of the various groups of air pollutants and of atmospheric chemical processes.
Notes
No duplicate credit for ENSC 420 and ENSC 520.
Prerequisite: PHYS 202 or PHYS 212.
Lec. 3Cr. 3
|
| |
-
ENSC 422 - Air Sampling and Analysis
Theory and methods of air sampling and laboratory testing.
Notes
No duplicate credit for ENSC 422 and ENSC 522.
Prerequisite or Corequisite: ENSC 420.
Lab. 2Cr. 1
|
| |
-
ENSC 425 - Indoor Air Quality and Industrial Ventilation
Sources and effects of common indoor air contaminants. Control techniques with emphasis on local exhaust ventilation system design.
Notes
No duplicate credit for ENSC 425 and ENSC 525.
Prerequisite: ENSC 301 or ENSC 490.
Lec. 3Cr. 3
|
| |
-
ENSC 435 - Risk Assessment for Environmental Health Hazards
Evaluating the risks to humans associated with exposure to routine emissions of pollutants with emphasis on air quality standards and permissible exposure levels. Assessing catastrophic risks associated with major industrial, transportation, and chemical releases as well as accidents at nuclear installation.
Notes
No duplicate credit for ENSC 435 and ENSC 535.
Prerequisites: ENSC 350.
Lec. 3Cr. 3
|
| |
-
ENSC 440 - Epidemiology
Concepts and methods for the study of health and disease in populations. Primary emphasis on noncommunicable disease.
Notes
No duplicate credit for ENSC 440 and ENSC 540.
Prerequisite: STAT 231 or MATH 231.
Lec. 3Cr. 3
|
| |
-
ENSC 442 - Principles of Toxicology
Absorption, distribution, and excretion of toxicants; their detoxification and bioactivation; their adverse effects; factors that modify their effects; and considerations for evaluating potential carcinogens and teratogens.
Notes
No duplicate credit for ENSC 442 and ENSC 542.
Prerequisites: CHEM 301.
Lec. 3Cr. 3
|
| |
-
ENSC 471 - Undergraduate Research
Advanced student is assigned a research problem in the field.
Notes
May be repeated to accrue a total of 3 hours. No duplicate credit for ENSC 471 and ENSC 571.
Prerequisite: Junior standing and acceptance by a faculty member to direct the research.
Cr. 1-3
|
| |
-
ENSC 481 - Seminar
Assigned topics for formal oral presentation.
Notes
May be repeated to accrue a total of 2 cr. hours.
Prerequisite: Senior standing.
Cr. 1
|
| |
-
ENSC 485 - Methods and Techniques of Environmental Science
Standard analytical tools used for studying air, water, and soil environments. The fundamentals of sampling, data collection and interpretation, statistical analysis, computer modeling, and report preparation will be covered.
Notes
No duplicate credit for ENSC 485 and ENSC 585.
Prerequisites: ENSC 312 and CHEM 203.
Lec. 3 Lab. 3Cr. 4
|
| |
-
ENSC 490 - Occupational Health Hazards
Introductory survey of chemical and physical hazards in the workplace. Basic toxicology, particulates, gases and vapors, ionizing and nonionizing radiation, noise, temperature extremes.
Notes
No duplicate credit for ENSC 490 and ENSC 590.
Prerequisite: ENSC 301.
Lec. 3Cr. 3
|
| |
-
ENSC 493 - Introduction to Environmental Laws
Introduction to the laws concerning conservation and environmental protection.
Notes
No duplicate credit for ENSC 493 and ENSC 593.
Lec. 3Cr. 3
|
| |
-
ENSC 495 - Current Topics in Environmental Science
Formal lecture presentations and discussions of recent advances and issues in environmental science.
Lec. 3Cr. 3
|
| |
-
ENSC 496 - Environmental Science Internship
Practical experience in the environmental arena, such as emergency management, regulatory or trustee agencies, consulting firms, or industrial facilities. Internships require a minimum of 120 hours of work experience under professional supervision.
Cr. 3
|
| |
-
ENSC 498 - Research Orientation
Review of scientific literature and preparation of a selected research proposal with guidance of a faculty member.
Notes
Enrollment in BIOL 499 or ENSC 499 is expected following completion of this course.
Prerequisites: Senior standing and permission of department head.
Cr. 3
|
| |
-
ENSC 499 - Senior Honors Thesis
Experimental research, thesis preparation, and oral presentation with the guidance of a faculty member.
Prerequisite: BIOL 498 or ENSC 498.
Cr. 3
|
| |
-
ENSC 503 - Solid Waste Management
Solid waste generation, handling, collection, transfer, and processing. Resource recovery and disposal alternatives. Library research and class presentation required.
Notes
No duplicate credit for ENSC 503 and ENSC 403.
Lec. 3Cr. 3
|
| |
-
ENSC 504 - Introduction to Water Pollution
Principles of water pollution. Eutrophication, pesticides, toxic organics, heavy metals, and radioactivity are emphasized. Library research and term paper required.
Notes
No duplicate credit for ENSC 504 and ENSC 404.
Lec. 3Cr. 3
|
| |
-
ENSC 506 - Environmental Emergency Planning and Management
Theory and Practice of preparing for and managing responses to the environmental aspects of emergencies associated with industrial/municipal operations, transportation incidents, and natural disasters. Individual library research and presentation of case studies required.
Notes
Duplicate credit will not be given for ENSC 506 and ENSC 406.
Prerequisite: Permission of department head.
Lec. 3Cr. 3
|
| |
-
ENSC 515 - Radiation Protection
Introduction to the general concepts of radiobiology and protection of personnel against radiation in field in laboratories. Class presentation and/or literature research is required.
Notes
No duplicate credit for ENSC 515 and ENSC 415.
Lec. 3Cr. 3
|
| |
-
ENSC 520 - Introduction to Air Pollution
Introductory study of the various groups of air pollutants and of atmospheric chemical processes. Library research and term paper required.
Notes
No duplicate credit for ENSC 520 and ENSC 420.
Lec. 3Cr. 3
|
| |
-
ENSC 522 - Air Sampling and Analysis
Theory and methods of air sampling and laboratory testing. Class presentation is required.
Notes
No duplicate credit for ENSC 522 and ENSC 422.
Lab. 2Cr. 1
|
| |
-
ENSC 525 - Indoor Air Quality and Industrial Ventilation
Sources and effects of common indoor air contaminants. Control techniques, with emphasis on local exhaust ventilation system design. Library research and class presentation required.
Notes
No duplicate credit for ENSC 525 and ENSC 425.
Lec. 3Cr. 3
|
| |
-
ENSC 535 - Risk Assessment for Environmental Health Hazards
Evaluating the risks to humans associated with exposure to routine emissions of pollutants with emphasis on air quality standards and permissible exposure levels. Assessing catastrophic risks associated with major industrial, transportation and chemical releases as well as accidents at nuclear installations. Library research and term paper required.
Notes
No duplicate credit for ENSC 535 and ENSC 435.
Lec. 3Cr. 3
|
| |
-
ENSC 540 - Epidemiology
Concepts and methods for the study of health and disease in populations. Primary emphasis on noncommunicable disease. Term paper and class presentation required.
Notes
No duplicate credit for ENSC 540 and ENSC 440.
Prerequisite: STAT 231 or permission of instructor.
Lec. 3Cr. 3
|
| |
-
ENSC 542 - Principles of Toxicology
Absorption, distribution and excretion of toxicants; their detoxification and bioactivation; their adverse effects; factors that modify their effects; and consideration for evaluating potential carcinogens and teratogens. Library research and term paper required.
Notes
No duplicate credit for ENSC 542 and ENSC 442.
Prerequisite: CHEM 301.
Lec. 3Cr. 3
|
| |
-
ENSC 571 - Research Problems
Advanced student is assigned a research problem in the field. May be repeated but, one may not accrue more than 3 semester hours of credit toward his degree. Results must be presented in a departmental seminar.
Notes
No duplicate credit for ENSC 571 and ENSC 471.
Prerequisite: Permission of department head.
Cr. 1-3
|
| |
-
ENSC 585 - Methods and Techniques of Environmental Science
Standard analytical tools used for studying air, water, and soil environments. The fundamentals of sampling, data collection, statistical analysis, interpretation, computer modeling, and report preparation. Additional data analysis, class presentation and paper required.
Notes
No duplicate credit for ENSC 585 and ENSC 485.
Prerequisites: CHEM 203.
Lec. 3 Lab. 3Cr. 4
|
| |
-
ENSC 590 - Occupational Health Hazards
An introductory survey of chemical and physical hazards in the workplace. Basic toxicology, particulates, gases and vapors, ionizing and nonionizing radiation, noise, temperature extremes. Library research and term project required.
Notes
No duplicate credit for ENSC 590 and ENSC 490.
Lec. 3Cr. 3
|
| |
-
ENSC 593 - Introduction to Environmental Laws
An introduction to the laws concerning conservation and environmental protection. Presentation of cases to class required.
Notes
No duplicate credit for ENSC 593 and ENSC 493.
Lec. 3Cr. 3
|
| |
-
ENSC 595 - Current Topics in Environmental Science
Formal lecture presentations and discussions of recent advances and issues in environmental science. Library research and term paper required.
Notes
May be requested with permission of department as content varies. No duplicate credit for ENSC 595 and ENSC 495.
Lec. 3Cr. 3
|
| |
-
ENSC 610 - Computational Modeling
Mathematical modeling of the fate, transport, and impact of controlled and accidental chemical releases to the atmosphere, surface water, and groundwater. Fundamental principles with an emphasis on practical applications, computer simulations of risks to human’s health and the natural environment.
Lec. 3Cr. 3
|
| |
-
ENSC 611 - Air Pollution Control
Theory and design considerations for emissions control of particulate matter, gases, and vapors.
Lec. 3Cr. 3
|
| |
-
ENSC 615 - Environmental Remediation
Survey of procedural approaches to assess and address regulatory, public and management concerns with contaminated sites/media. Reviews and discussions of case studies and extant investigations will supplement the text material.
Lec. 3Cr. 3
|
| |
-
ENSC 625 - Water Quality Management
Physical, chemical and biological parameters of water quality and their importance. Degradation of water quality, concepts relating to biodegradable organic material, predicting water quality, and water quality surveys.
Lec. 3Cr. 3
|
| |
-
ENSC 651 - Hazardous Waste Management
Study of the major areas of the management of hazardous wastes, including points of origin, transportation, predisposal treatment techniques, disposal methods, and some legal applications.
Lec. 3Cr. 3
|
| |
-
ENSC 671 - Research
Student is given a research problem in environmental science. Required for graduation of all majors. One may accrue 3 semester hours of credit toward the degree. Results must be presented to departmental seminar.
Cr. 1-3
|
| |
-
ENSC 681 - Seminar
Students are assigned special topics for formal classroom presentation.
Notes
This course is required for graduation.
Lec. 1Cr. 1
|
| |
-
ENSC 693 - Environmental Law Cases
Prominent cases concerning environmental protection law.
Lec. 3Cr. 3
|
| |
-
ENSC 694 - Systemic Toxicology
Toxic effects of chemical substances on specific target organs: the respiratory system, liver, kidney, skin, eye, nervous system, and others.
Lec. 3Cr. 3
|
| |
-
ENSC 695 - Environmental Toxicology
Basic concepts and test methods used in aquatic toxicity testing will be presented. Examples of typical data and their interpretation.
Lec. 3Cr. 3
|
| |
-
ENSC 696 - Recent Advances in Environmental Science
Most recent advances in a designated area of environmental science.
Notes
May be repeated once with the approval of department head as course content varies.
Lec. 3Cr. 3
|
| |
-
ENSC 699 - Thesis
Student must register for the thesis course during each regular semester the thesis is in progress. Student must be enrolled in Thesis the semester the thesis is completed and approved by the examining committee.
Notes
May be repeated. However, only 6 hours credit will be applied to the Master of Science in Environmental Science.
Cr. 3-6
|
| |
-
FACS 101 - Fundamentals of Clothing
Sociological, psychological, and economic implications of selection of clothing for self and family. Evaluation of ready-made garments. Clothing construction with emphasis on short-cut methods.
Notes
No duplicate credit for HOEC and FACS courses of the same number.
Lec. 1 Lab. 4Cr. 3
|
| |
-
FACS 104 - Survey of the Apparel Industry
Overview of fashion industry and marketing techniques including current trends. Emphasis on fashion origin, design, production, and retail phases of business.
Notes
No duplicate credit for HOEC and FACS courses of the same number.
Lec. 3Cr. 3
|
| |
-
FACS 121 - Clothing and Humanity
Socio-psychological, cultural and aesthetic aspects of clothing; wardrobe planning and acquisition. Designed for both men and women.
Notes
Open to non-majors. No duplicate credit for HOEC and FACS courses of the same number.
Lec. 3Cr. 3
|
| |
-
FACS 143 - Introduction to Culinary Arts
Study and application of essential knowledge for understanding culinary arts.
Notes
Open to all majors. No duplicate credit for HOEC and FACS courses of the same number.
Lec. 2 Lab. 4Cr. 4
|
| |
-
FACS 147 - Organization of Child Care Programs
Basic information on the development of young children and the implications for designing early childhood programs including experiences in actual classroom situations.
Notes
No duplicate credit for HOEC and FACS courses of the same number.
Cr. 3
|
| |
-
FACS 204 - Fashion Merchandising
Principles of creating and merchandising fashion items with emphasis on designing, manufacturing, buying, and retailing of apparel and accessories.
Notes
(Open to non-majors.) No duplicate credit for HOEC and FACS courses of the same number.
Lec. 3Cr. 3
|
| |
-
FACS 236 - Basic Food and Beverage Cost Control
Management, control, storage, and merchandising of food and alcoholic beverages.
Notes
No duplicate credit for HOEC and FACS courses of the same number.
Lec. 3Cr. 3
|
| |
-
FACS 237 - Introduction to the Hospitality Industry
Exploring the hospitality and lodging industry. Career opportunities and the scope of restaurant, hotel, and food service segments.
Notes
No duplicate credit for HOEC and FACS courses of the same number.
Lec. 3Cr. 3
|
| |
-
FACS 243 - Food Production, Operations, and Service
Quantity food preparation techniques used in planning, preparation, and service of food for various occasions. Quality standards in preparation and service, use of standardized recipes and food costing are included.
Notes
No duplicate credit for HOEC and FACS courses of the same number.
Prerequisite: Open to all majors.
Lec. 2 Lab. 4Cr. 4
|
| |
-
FACS 301 - Advanced Clothing Design and Selection
Design selection and creation of designs from a basic pattern.
Notes
No duplicate credit for HOEC and FACS courses of the same number.
Lec. 1 Lab. 4Cr. 3
|
| |
-
FACS 304 - Fashion Promotion
Visual merchandising of fashions including fashion shows, special events, store and window display, selling techniques, public relations and personal selling.
Notes
No duplicate credit for HOEC and FACS courses of the same number.
Lec. 3Cr. 3
|
| |
-
FACS 311 - Textiles
Fabric study to develop good judgment in selection, use, and care of fabrics used in clothing and home furnishings.
Notes
Open to non-majors. No duplicate credit for HOEC and FACS courses of the same number.
Lec. 3Cr. 3
|
| |
-
FACS 332 - Housing
Physical, ecological, cultural, socioeconomic, and community aspects of choosing housing for individuals and families.
Notes
Open to non-majors. No duplicate credit for HOEC and FACS courses of the same number.
Lec. 2 Lab. 2Cr. 3
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FACS 333 - Residential Furnishings
Analysis and planning of the physical environment of contemporary residential interiors, including space planning and application of aesthetic principles.
Notes
Open to non-majors. No duplicate credit for HOEC and FACS courses of the same number.
Lec. 2 Lab. 2Cr. 3
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