|
Petroleum Engineering |
|
-
PETE 3025 - Heat and Mass Transfer Credits: 3 Introduces energy and mass transfer concepts and the development of mathematical models of physical phenomena, including convection, conduction, radiation, and mass diffusion and convection.
Prerequisite: C or better in ES 2330 and MATH 2310 . Student must be a Petroleum Engineering major.
|
|
-
PETE 3100 - Rock and Fluids Lab Credits: 2 Provides understanding of principles of rock and fluid properties and their measurement as part of conventional and special core analysis, as well as PVT characteristics of reservoir fluids. Students are expected to understand how to measure important rock and fluid properties using laboratory equipment, as part of reservoir characterization routines, formation damage evaluations and well log calibration protocols. Students are also expected to learn how to write succinct and organized reports.
Prerequisite: C or better in PETE 2050 . Student must be a Petroleum Engineering major.
|
|
-
PETE 3200 - Reservoir Engineering Credits: 3 Covers rock and fluid properties, reserve estimation using volumetric and material balance methods, discussion of different reservoir drive mechanisms, aquifer models, Darcy’s law and single-phase flow through porous media, introduction to well testing, solution of radial diffusivity equation, immiscible displacement, decline rate analysis, and reservoir simulation.
Prerequisite: PETE 3025 , C or better in PETE 2050 . Student must be a Petroleum Engineering major.
|
|
-
PETE 3255 - Basic Drilling Engineering Credits: 3 Principles and practices of oil and gas well rotary drilling, including rock mechanics, drilling hydraulics, drilling fluids, and hold deviation. Drilling equipment analysis, casing design, and drilling fluid properties. Application of modern computer-based analysis and design methods.
Prerequisite: C or better in PETE 2050 . Student must be a Petroleum Engineering major.
|
|
-
PETE 3265 - Drilling Fluids Laboratory Credits: 3 Measurement of physical and chemical properties of drilling fluids, including experiments on mud density control, viscosity control, theological properties, mud hydraulics, filtration properties, mud contaminants and their treatments. Includes design of experiments, data processing, interpretation and writing technical reports.
Prerequisite: PETE 3255 , C or better in both ES 2310 and ES 2330 . Student must be a Petroleum Engineering major.
|
|
-
PETE 3715 - Production Engineering Credits: 3 Provides elements for calculating the production rate of oil or gas wells, including reservoir inflow performance, which is determined by the reservoir rock and fluids properties and calculated based on Darcy’s law, and tubing performance, which is determined by tubing parameters and calculated based on Newtonian dynamics. Basic design of artificial lift systems, reservoir stimulations and optimization of production systems are also included.
Prerequisite: C or better in ES 2310 , ES 2330 and PETE 2050 . Student must be a Petroleum Engineering major.
|
|
-
PETE 3725 - Well Completions Credits: 3 Covers many facets of completion and intervention in oil and gas wells, including design and procedures to meet deliverability, safety, and integrity, starting with completion, stimulation, workover, and intervention, ending with plug and abandonment requirements.
Prerequisite: C or better in both PETE 2050 and ES 2410. Student must be a Petroleum Engineering major.
|
|
-
PETE 3890 - Engineering Honors Program Research Methods Credits: 3 A general approach to scientific research and graduate school preparation. Topics will include: finding a research mentor, literature search skills, using the scientific method for approaching a research problem and developing a research methodology, writing a research funding proposal, delivering a research presentation and selecting and applying for graduate school.
Cross Listed ARE 3890 /ATSC 3890 /CE 3890 / CHE 3890 /COSC 3890 /EE 3890 /ES 3890 . Restricted Restricted to College of Engineering Honors Program students.
Prerequisite: sophomore standing.
|
|
-
PETE 3900 - Undergraduate Research in Petroleum Engineering Credits: 1-6 Max Credit (Max. 6)
Students carry out research appropriate to undergraduates, under faculty supervision. May be taken more than once. Requires a written research proposal to be approved by instructor prior to course start.
Prerequisite: junior standing as a petroleum engineering major and consent of instructor.
|
|
-
PETE 4000 - Environment, Technology and Society Credits: 3 Explores relationships among technology, the environment and society. Studies social and humanistic aspects of using current and future technology to understand and solve environmental problems.
Cross Listed CHE 4000 . Prerequisite: junior standing and completion of two lab sciences.
|
|
-
PETE 4030 - Rock and Fluid Properties Credits: 3 Reservoir rocks
Former Course Number [3010]
Prerequisite: PETE 2050 .
|
|
-
PETE 4050 - Life Cycle Analysis Credits: 3 Max Credit 3
Focus on learning to use/apply Life Cycle Assessment (LCA) skills; compare other risk assessment tools; practice assessing environmental impact over whole product life cycle; learning to set fundamentals for comparative risks on humans & ecosystems; to relate risk & impacts on human health to consumption/production.
Cross Listed PETE 5050 Prerequisite: Junior status or above.
|
|
-
PETE 4060 - Flow through Porous Media Credits: 3 Review of properties of porous media. Relationships of permeability to porosity. Formulation of Fundamental Flow Equation. Constant Rate Solutions. Constant Pressure Solutions. The Principles of Superposition. Transient well testing of oil and gas reservoirs, including drawdown, build-up, faulted systems, interference, drillstem tests, isochronal test analysis.
Dual Listed PETE 5060 . Prerequisite: PETE 3200 .
|
|
-
PETE 4200 - Natural Gas Engineering Credits: 3 Studies development of natural gas reservoirs for normal production and as storage fields. Includes back pressure tests, hydrates, pipeline problems, cycling and use of the material balance equation. Also processing of natural gas, including compression, expansion, refrigeration, separation, sour gas treating, sulfur recovery, LNG production and carbon dioxide separation.
Prerequisite: PETE 2050 .
|
|
-
PETE 4215 - Rock Mechanics Credits: 3 Covers rock mechanical properties, stress and strain in rock and rock masses, rock failure mechanisms, thermal-hydraul ic-mechanical-chemical (THMC) coupling, and their applications to ground surface subsidence/uplift, borehole instability, and hydraulic fracturing.
Dual Listed PETE 5215 . Prerequisite: ES 2330 and 2410.
|
|
-
PETE 4220 - Geostatistics and Subsurface Characterization Credits: 3 An advanced skills course about subsurface modeling using diverse data (e. g. well data, seismic info, etc. ), including model development, techniques, and practical applications. Students must have basic knowledge of mathematical and statistical modeling.
Dual Listed PETE 5220 . Prerequisite: Junior standing and PETE 3200 or consent of instructor.
|
|
-
PETE 4225 - Well Test Analysis Credits: 3 Covers knowledge of well test interpretation techniques. Theory for well testing include drawdown and buildup tests, single-rate and multi-rate testing, derivative analysis, wellbore storage, type curve matching, fall off and injectivity, fractured wells, fractured reservoirs, interference and pulse testing, and horizontal well analysis.
Prerequisite: PETE 3200 . Student must be a Petroleum Engineering major.
|
|
-
PETE 4300 - Reservoir Simulation Credits: 3 Simulation of petroleum reservoirs, formulation of equations, finite difference methods of solution, data preparation and input, history matching case studies.
Dual Listed PETE 5300 . Prerequisite: PETE 3200 , MATH 2210 , MATH 4440 .
|
|
-
PETE 4310 - Fundamentals of EOR Credits: 3 The application of physical principles to increasing the recovery from reservoirs. Miscible fluid flooding in-situ combustion, and thermal recovery.
Dual Listed PETE 5310 . Prerequisite: PETE 3200 .
|
|
-
PETE 4320 - Well Log Interpretation Credits: 3 Studies use of various types of open hole logs for quantitative evaluation of formations.
Prerequisite: C or better in PETE 2050 . Student must be a Petroleum Engineering major.
|
|
-
PETE 4330 - Geostatistics and Subsurface Characterization Credits: 3 Max Credit 3
An advanced skills course about subsurface modeling using diverse data (e.g. well data, seismic info, etc.), including model development, techniques, and practical applications. Students must have basic knowledge of mathematical and statistical modeling.
Restricted Junior standing
Prerequisite: PETE 3200 or consent of instructor
|
|
-
PETE 4340 - Petroleum Economics Credits: 3 Applies principles of economics to petroleum properties. Studies taxation, present worth, rate of return, payout and decisions under uncertainty.
Prerequisite: PETE 3200 . Student must be a Petroleum Engineering major.
|
|
-
PETE 4400 - Tight Gas Sand/Coalbed Methane Credits: 3 This course provides information needed to understand geoscience and engineering considerations concerning the development of Fractured, Tight Gas Sands and Coalbed Methane reservoirs. Subjects include the origin and accumulation of hydrocarbons within these reservoirs, and the tools, methods and workflows used for locating, characterizing, and developing these reservoir types.
Dual Listed PETE 5400 . Prerequisite: PETE 3200 ; Student must be a Petroleum Engineering major.
|
|
-
PETE 4450 - Unconventional Reservoirs Credits: 3 Provides fundamental knowledge of unconventional reservoirs, including types, experimental characterization, and petrophysical properties of unconventional oil reservoirs; modeling flow in unconventional rocks; and recovery enhancement in shale oil reservoirs.
Dual Listed Dual list with PETE 5450 Prerequisite: PETE 2050 & 3200.
|
|
-
PETE 4580 - Honors Undergraduate Research Credits: 3 An independent research experience for undergraduate students enrolled in the Engineering Honors Program. Before registering for this class, students are responsible for discussing their interests with faculty, identifying a willing research mentor, obtaining approval by said mentor, and communicating the student/ faculty partnership tot he appropriate staff in their home department. Must be in the Engineering Honors Program.
Cross Listed ATSC 4580 /BE 4580 /CE 4580 /CHE 4580 /COSC 4580 /ES 4580 /ESE 4580 . Prerequisite: junior or senior standing.
|
|
-
PETE 4736 - Petroleum Engineering Design Credits: 4 Design and development of petroleum reservoirs using principles and skills learned in the Petroleum Engineering program. Application of software for design and analysis of the drilling, reservoir and production of petroleum.
USP 2015 Code U5C3 Prerequisite: PETE 3200 , PETE 3255 , PETE 3715 , PETE 3725 , and C or better in COM2. Student must be a Petroleum Engineering major.
|
|
-
PETE 4800 - Shale Reservoir Development Credits: 3 Provides an overview of the geoscience and engineering aspects involved in the exploration and development of shale reservoirs. Topics covered include organic geochemistry, geomechanics, petrophysics, geophysics, reservoir and completion engineering, and drilling. The primary phases involved in obtaining hydrocarbon production from shale reservoirs are detailed.
Dual Listed PETE 5800 . Former Course Number [4850]
Prerequisite: C or better in both PETE 2050 and PETE 3200 .
|
|
-
PETE 4810 - Unconventional Gas Production Credits: 3 Study of resource base, drilling, completion and production technology, and reservoir characteristics for tight gas sands. Devonian shales, coalbed methane, geopressured aquifers, and hydrates. Case histories and economics are presented in each of these.
Dual Listed PETE 5810 . Prerequisite: consent of instructor.
|
|
-
PETE 4820 - Blockchain in Energy Credits: 3 Max Credit 3
This course provides an overview of the global energy transition. It introduces Blockchain technology and provides hands-on experience in developing Smart Contracts, digital tokes, and Decentralized Applications. The application of Blockchain in energy, sustainability, and the carbon economy will also be explored.
Prerequisite: Junior status or higher
|
|
-
PETE 4830 - Thermal Recovery Credits: 3 Objective of this course is to examine and explore in depth the theoretical and applied aspects of thermal recovery process of producing hydrocarbons including state-of-the-art review.
Dual Listed PETE 5830 . Prerequisite: Senior standing in petroleum or chemical engineering.
|
|
-
PETE 4860 - Energy, Environment, and Materials Credits: 3 Understanding the connection between materials, energy and environment, including the history of climate and different types of energy in use for a greener planet. Provides broad knowledge in the areas of energy, material science, chemical, petroleum, and environmental engineering.
Dual Listed PETE 5860 . Prerequisite: Junior standing and PETE 2050 or consent of instructor.
|
|
-
PETE 4970 - Internship in Petroleum Engineering Credits: 1-6 Max Credit (Max. 6)
Enables credit for students in appropriate engineering activities while serving as interns in an industrial, government, or other setting. Requires a written project proposal to be approved by instructor prior to course start.
Prerequisite: Must be involved in a petroleum engineering co-op/internship experience; consent of instructor.
|
|
-
PETE 4990 - Topics in Petroleum Engineering Credits: 1-6 Max Credit 6
Features topics not included in regularly offered classes.
Prerequisite: Junior status or higher
|
|
-
PETE 5010 - Transport Phenomena Credits: 3 Examines the modeling of momentum, heat and mass transport.
Cross Listed CHE 5010 . Prerequisite: graduate standing.
|
|
-
PETE 5020 - Thermodynamics Credits: 3 Utilizing the laws of thermodynamics to a wide variety of process applications. Evaluating current methods for predicting thermodynamic properties of pure fluids and mixtures. Modeling multiphase, multicomponent equilibria.
Cross Listed CHE 5020 . Prerequisite: graduate standing.
|
|
-
PETE 5050 - Life Cycle Analysis Credits: 3 Max Credit 3
Focus on learning to use/apply Life Cycle Assessment (LCA) skills; compare other risk assessment tools; practice assessing environmental impact over whole product life cycle; learning to set fundamentals for comparative risks on humans & ecosystems; to relate risk & impacts on human health to consumption/production.
Dual Listed PETE 4050 Prerequisite: Graduate standing.
|
|
-
PETE 5055 - Drilling Engineering Credits: 3 Max Credit 3
Principles and practices of oil and gas well rotary drilling, including rock mechanics, drilling hydraulics, drilling fluids, and hole deviation. Drilling equipment analysis, casing design, and drilling fluid properties. Application of modern computer-based analysis and design methods.
Prerequisite: Graduate Standing
|
|
-
PETE 5060 - Flow through Porous Media Credits: 3 Review of properties of porous media. Relationships of permeability to porosity. Formulation of the Fundamental Flow equation. Constant Rate solutions. Constant Pressure Solutions. The Principle of Superposition. Transient well testing of oil and gas reservoirs, including drawdown, build-up, faulted systems, interference, drillstem tests, and isochronal test analysis.
Cross Listed CHE 5060 Dual Listed PETE 4060 . Prerequisite: graduate standing.
|
|
-
PETE 5070 - Multiphase Flow Credits: 3 A thorough background in the methods of analysis and current developments in gas-liquid, gas-solid, liquidsolid, and gas-liquid-solid flows. Introduction to multiphase flow instrumentation.
Prerequisite: graduate standing or consent of instructor.
|
|
-
PETE 5080 - Interfacial Phenomena Credits: 3 Introduction to surface and colloid chemistry, coagulation and flocculation, surface energy and thermodynamics of surfaces, adsorption at interfaces, surface tension, capillarity and wetting, spontaneous imbibition, applications to hydrocarbon reservoirs and oil recovery.
Prerequisite: graduate standing.
|
|
-
PETE 5090 - Graduate Research Methods Credits: 3 A general approach to scientific research and graduate school. Topics include: purpose of graduate school, career options with graduate degrees, communication basics, literature search skills, presentations, research instrumentation, the scientific method, developing hypotheses, grant proposals, paper writing, research ethics, copyrights, patents, research notebooks, and classroom teaching techniques.
Prerequisite: graduate standing.
|
|
-
PETE 5100 - Independent Study Credits: 1-3 Max Credit (Max. 12)
Selected topics in petroleum engineering.
Prerequisite: graduate standing and consent of instructor.
|
|
-
PETE 5150 - Topics in Petroleum Engineering Credits: 1-3 Max Credit (Max. 12)
Selected topics in petroleum engineering.
Prerequisite: consent of instructor.
|
|
-
PETE 5200 - Problems in Petroleum Engineering Credits: 1-3 Max Credit (Max. 6)
Selected topics in petroleum engineering.
Prerequisite: doctoral student and consent of instructor.
|
|
-
PETE 5215 - Electronics I Laboratory Credits: 3 Covers rock mechanical properties, stress and strain in rock and rock masses, rock failure mechanisms, thermal-hydraul ic-mechanical-chemical (THMC) coupling, and their applications to ground surface subsidence/uplift, borehole instability, and hydraulic fracturing.
Dual Listed PETE 4215 . Prerequisite: graduate standing.
|
|
-
PETE 5220 - Geostatistical/Subsurface Characterization Credits: 3 Providing practical way for building realistic subsurface models. Students must have basic knowledge of mathematical and statistical modeling. Both fundamental and practical aspects are covered. Students will be able to take real data derived from subsurface modeling and build geostatistical models, which will be performed deterministically and stochastically.
Dual Listed PETE 4220 Prerequisite: graduate standing.
|
|
-
PETE 5255 - Advanced Drilling Engineering Credits: 3 Principles and practices of advanced topics in oil and gas drilling engineering including advances in directional and horizontal drilling, drilling fluid hydraulics and cuttings transport. Non-Newtonian Fluid Flow Analysis, pore pressures and fracture resistance estimation methods. Application of modern computer-based analysis and design methods.
Prerequisite: graduate standing.
|
|
-
PETE 5300 - Reservoir Simulation Credits: 3 Simulation of petroleum reservoirs, formulation of equations, finite difference methods of solution, data preparation and input, history matching case studies.
Dual Listed PETE 4300 . Prerequisite: graduate standing.
|
|
-
PETE 5310 - Fundamentals of EOR Credits: 3 The application of physical principles to increasing the recovery from reservoirs. Miscible fluid flooding in-situ combustion, and thermal recovery.
Dual Listed PETE 4310 . Prerequisite: graduate standing.
|
|
-
PETE 5340 - Reservoir Engineering. Credits: 3 Covers rock and fluid properties, reserve estimation using volumetric and material balance methods, discussion of different reservoir drive mechanisms, aquifer models, Darcy’s law and single-phase flow through porous media, introduction to well testing, solution of radial diffusivity equation, immiscible displacement, decline rate analysis, and reservoir simulation.
Prerequisite: Graduate standing.
|
|
-
PETE 5350 - Advanced Reservoir Engineering Credits: 3 Covers high-level understanding of modern reservoir engineering. Provides knowledge of scientific principles to formulate fluid flow, heat and mass transport in permeable media. Use analytical and computational tools to resolve research-oriented problems. Develop competence in interpreting results of modeling.
Prerequisite: graduate standing.
|
|
-
PETE 5355 - Mathematical Methods Credits: 3 Covers mathematical modeling: conservation laws and constitution relationships; partial differential equations (PDEs): the types and analytical solution techniques; applied linear algebra; matrices and Eigen-analysis; numerical solution techniques: finite difference and finite element methods, Newton-Raphson method, and temporal discretization techniques, and linear solution techniques: direct and iterative methods.
Cross Listed CHE 5355. Prerequisite: graduate standing.
|
|
-
PETE 5400 - Tight Gas Sand/Coalbed Methane Credits: 3 This course provides information needed to understand geoscience and engineering considerations concerning the development of Fractured, Tight Gas Sands and Coalbed Methane reservoirs. Subjects include the origin and accumulation of hydrocarbons within these reservoirs, and the tools, methods and workflows used for locating, characterizing, and developing these reservoir types.
Dual Listed PETE 4400 . Prerequisite: graduate standing.
|
|
-
PETE 5450 - Unconventional Reservoirs Credits: 3 Provides fundamental knowledge of unconventional reservoirs, including types, experimental characterization, and petrophysical properties of unconventional oil reservoirs; modeling flow in unconventional rocks; and recovery enhancement in shale oil reservoirs.
Prerequisite: Graduate standing
|
|
-
PETE 5715 - Production Engineering Credits: 3 Provides elements for calculating production rate of oil/ gas wells, including reservoir inflow performance, determined by reservoir rock and fluids properties using Darcy’s law, and tubing performance, determined by tubing parameters and using Newtonian dynamics. Basic design of artificial life systems, reservoir stimulations and optimization of production systems are included.
Prerequisite: graduate standing.
|
|
-
PETE 5800 - Shale Reservoir Development Credits: 3 Provides an overview of the geoscience and engineering aspects involved in the exploration and development of shale reservoirs. Topics covered include organic geochemistry, geomechanics, petrophysics, geophysics, reservoir and completion engineering, and drilling. The primary phases involved in obtaining hydrocarbon production from shale reservoirs are detailed.
Dual Listed PETE 4850. Prerequisite: graduate standing.
|
|
-
PETE 5810 - Unconventional Gas Production Credits: 3 Study of resource base, drilling, completion and production technology, and reservoir characteristics for tight gas sands. Devonian shales, coalbed methane, geopressured aquifers, and hydrates. Case histories and economics are presented in each of these.
Dual Listed PETE 4810 . Prerequisite: graduate standing or consent of instructor.
|
|
-
PETE 5830 - Thermal Recovery Credits: 3 Objective of this course is to examine and explore in depth the theoretical and applied aspects of thermal recovery process of producing hydrocarbons including state-of-the-art review.
Dual Listed PETE 4830 . Prerequisite: graduate standing or consent of instructor.
|
|
-
PETE 5840 - Miscible Processes Credits: 3 Objective is to examine and explore in depth the theoretical and applied aspects of miscible processes of producing hydrocarbons including state-of the-art review.
Prerequisite: PETE 5310 and graduate standing or consent of instructor.
|
|
-
PETE 5850 - Chemical Enhanced Oil Recovery Processes Credits: 3 Objective is to examine and explore in depth the theoretical and applied aspects of the classification of enhanced oil recovery processes called chemical processes.
Prerequisite: graduate standing.
|
|
-
PETE 5860 - Energy, Environment, and Materials Credits: 3 Understanding the connection between materials, energy and environment, including the history of climate and different types of energy in use for a greener planet. Provides broad knowledge in the areas of energy, material science, chemical, petroleum, and environmental engineering.
Dual Listed PETE 4860 . Prerequisite: graduate standing.
|
|
-
PETE 5890 - Petroleum Engineering Graduate Seminar Credits: 1 Max Credit (Max. 9)
Departmental seminar on current research with formal training for student presentation of technical papers.
Prerequisite: graduate standing.
|
|
-
PETE 5900 - Practicum in College Teaching Credits: 1-3 Max Credit (Max. 3)
Work in classroom with a major professor. Expected to give some lectures and gain classroom experience.
Prerequisite: graduate status.
|
|
-
PETE 5920 - Continuing Registration: On Campus Credits: 1-2 Max Credit (Max. 16)
Prerequisite: advanced degree candidacy.
|
|
-
PETE 5940 - Continuing Registration: Off Campus Credits: 1-2 Max Credit (Max. 16)
Prerequisite: advanced degree candidacy.
|
|
-
PETE 5959 - Enrichment Studies Credits: 1-3 Max Credit (Max. 99)
Designed to provide an enrichment experience in a variety of topics.
A&S College Core 2015 Note: credit in this course may not be included in a graduate program of study for degree purposes.
|
|
-
PETE 5960 - Thesis Research Credits: 1-12 Max Credit (Max. 24)
Designed for students who are involved in research for their thesis project. Also used for students whose coursework is complete and are writing their thesis.
Prerequisite: enrollment in a graduate degree program.
|
|
-
PETE 5970 - MS Plan B Research Project Credits: 1-2 Max Credit 2
Students complete a non-thesis capstone project on a topic of choice within the petroleum or energy field, under the guidance of their graduate committee. Students must produce at least one final paper and present their results in a public forum (Final Examination). Must complete a minimum of two credit hours for the M.S. degree.
Prerequisite: Graduate Standing.
|
|
-
PETE 5980 - Dissertation Research Credits: 1-12 Max Credit (Max. 48)
Designed for students who are involved in research for their dissertation project. Also used for students whose coursework is complete and are writing their dissertation.
Prerequisite: enrollment in a graduate level degree program.
|
|
-
PETE 5990 - Internship Credits: 1-12 Max Credit (Max. 24)
Prerequisite: graduate standing.
|
Pharmacy |
|
-
PHCY 1101 - First-Year Seminar Credits: 3 USP 2015 Code U5FY
|
|
-
PHCY 3450 - Foundational Pathophysiology Credits: 4 Foundational principles of tissue dysfunction and disease, incorporating clinical lab values and human case studies. This course is primarily designed for pre-nursing students who will transition into their clinical rotations. Students will jointly meet once per week with students within PHCY 6120 for interprofessional education revolving around student-led case study presentations.
When Offered (Normally offered spring semester) Former Course Number [4450]
Prerequisite: LIFE 1010 , CHEM 1000 or equivalent, and ZOO 3115 .
|
|
-
PHCY 4050 - Evolution of American Health Credits: 2
|
|
-
PHCY 4141 - Health Economics and Outcomes Credits: 3 This course considers the role of the range of outcomes used by clinicians and health care systems in assessing treatment modalities. The framework for conducting and assessing outcomes research will be emphasized.
|
|
-
PHCY 4160 - Problems in Pharmacy Credits: 1‑4 Original investigation on a library or laboratory problem concerned with a definite phase of work in pharmacy.
Prerequisite: consent of instructor.
|
|
-
PHCY 4170 - Pharmacy Seminar Credits: 1‑4 Students present oral reports on selected topics of pharmaceutical interest for discussion by the group.
Prerequisite: consent of instructor.
|
|
-
PHCY 4210 - Regulating Dangerous Drug Use Credits: 2 Regulatory theory and practice is used to study the authority/responsibilities of three federal agencies that are entrusted to ensure the safe, effective, and efficient medication use in the United States. The practices and procedures of the FDA, DEA, and CMS are reviewed, describing why healthcare providers should comply with regulatory principles.
Dual Listed PHCY 5210 . Prerequisite: Upper division undergraduate status or department permission.
|
|
-
PHCY 4240 - Pharmaceutical Homicide Credits: 2 Legal pharmaceutical products are sometimes used by healthcare professional criminals to kill people. This course focuses on identifying the zone of risk for people who could be harmed by pharmaceuticals, and the development of best practices to protect patients and other from the harm.
Dual Listed PHCY 5240 . Prerequisite: Upper division undergraduate status or department permission.
|
|
-
PHCY 4241 - Biopharmaceutical Regulatory Compliance Credits: 3 This course considers the role of regulatory agencies that prescribe conduct in the healthcare industries and professions, focusing on the Food and Drug Administration. The functioning of other agencies, such as the federal Drug Enforcement Administration, state boards of pharmacy and state departments of health are also considered.
|
|
-
PHCY 4341 - Intro to Healthcare Quality Credits: 3 This course will provide an overview of healthcare quality and performance measurement. It will also provide a review of quality improvement strategies used in various healthcare settings.
|
|
-
PHCY 4441 - Intro Health Institution Leadership Credits: 3 Max Credit 3
This course provides undergraduates information through analysis of theory and application. The course will use discussion boards to highlight examples of leadership roles and discuss differences in types of leadership roles. Organizational, team, and individual dimensions of leadership are examined.
Restricted Selection of leadership track in BAS program
|
|
-
PHCY 4470 - Fundamentals of Pharmacology Credits: 4 Studies pharmaceutical agents used for treatment, diagnosis or prevention of disease with particular emphasis on mechanisms of action, therapeutic and adverse effects.
When Offered (Normally offered fall semester) Former Course Number [3510]
Prerequisite: PHCY 3450 .
|
|
-
PHCY 4670 - Medication Malpractice Credits: 2 Using a case-study approach, potential legal liability issues are studies, within a health care context that primarily focuses on legal liability related to the use of medications. Strategies for reduction of legal liability are explored. The implementation and oversight of legal risk management programs is addressed.
Dual Listed Dual listed with: PHCY 5670 . Prerequisite: Upper division undergraduate status or department permission.
|
|
-
PHCY 5040 - The Evolution of American Health Credits: 2 This course explores the evolution of the healthcare system in response to various needs and crises over the years. The professionalization of health care; the development of the modern hospital; the implications of computerized health information; and the empowerment of patients will be covered.
Prerequisite: Admission into the Health Services Administration MS program.
|
|
-
PHCY 5041 - Health Services Administration Research Methods Credits: 2 This course will cover the basic research designs used in health services research. Focus will be given on framing the research questions, selecting the appropriate study design and threats to the internal validity of the study designs.
Prerequisite: Must be enrolled in the HSA program.
|
|
-
PHCY 5042 - Statistics for Health Services Credits: 3 This course will introduce students to correlation analysis, regression, analysis of variance and selected non-parametric tests, focusing on appropriate use of each and how to interpret the output of a statistical test to answer a research question.
Prerequisite: Must be enrolled in the HSA program, or by permission.
|
|
-
PHCY 5042 - Statistics for Health Services Credits: 3 This course will introduce students to correlations analysis, regression, analysis of variance and selected non-parametric tests, focusing on appropriate use of each and how to interpret the output of a statistical test to answer a research question. Prerequisite: Must be enrolled in the HSA program, or by permission.
|
|
-
PHCY 5043 - Empirical Analysis for Health Services Administration Credits: 3 This course will equip students with an understanding of research and policy debates related to economic, political, and administrative aspects of health services by providing an overview of how research can be used by health service researchers to draw conclusions about health services and their administration.
Prerequisite: Must be enrolled in the HSA program, or by permission.
|
|
-
PHCY 5044 - Preventing Fraud/Waste/Abuse Credits: 2 Describes potential violations of legal requirements for health institutions and health professionals that can be considered fraud, waste and abuse. Compliance strategies to avoid legal consequences will be discussed.
Prerequisite: enrollment in graduate or professional program or department permission.
|
|
-
PHCY 5045 - Health Services Administration Applied Research Credits: 1-4 This course provides the opportunity for students to apply knowledge and skills obtained in the HSA program while gaining practical experience with real-world projects.
Prerequisite: Must be enrolled in the HSA program, or by permission.
|
|
-
PHCY 5046 - Health Services Administration Seminar1 Credits: 1 Max Credit (Max. 2)
An in-depth investigation of a timely issue in health services, including the regulatory, economic, patient-safety, marketing, leadership, and ethical aspects of that issue. Students will participate in separate group analysis of a presented problem, and in their presentations of their group’s assessment of the problem.
Prerequisite: Completion or concurrent enrollment in PHCY 5040 .
|
|
-
PHCY 5047 - Pandemic Preparedness Policy Credits: 2 Analysis of regulatory measures undertaken to protect the public from adverse effects of a global pandemic. Evaluation of alternative means of preparing for a pandemic and for management of pandemic response. Considers balancing of individual interests and community interests.
|
|
-
PHCY 5141 - Principles of Health Econ and Outcomes Credits: 3 This course considers the role of the range of outcomes used by clinicians and health care systems in assessing treatment modalities. The framework for conducting and assessing outcomes research will be emphasized.
Prerequisite: Completion or concurrent enrollment in PHCY 5040 .
|
|
-
PHCY 5142 - Health Economic Decision Analysis Credits: 2 This class is designed to provide the student with the methods of comparative effectiveness research with special focus on how various decision makers use comparative effectiveness data to assist in decision-making.
Prerequisite: PHCY 5141 .
|
|
-
PHCY 5143 - Comparative Effectiveness Research Credits: 2 This class is designed to provide the student with the methods of comparative effectiveness research with special focus on how various decision makers use comparative effectiveness data to assist in decision-making.
Prerequisite: PHCY 5141 .
|
|
-
PHCY 5144 - Patient Reported Outcomes Credits: 2 This course is designed to provide an overview of methods pertaining to the development and evaluation of patient-reported outcome measures (PROs) and the role they play in regulatory, reimbursement, and market access decisions.
Prerequisite: Admission in the MS in Health Services Administration program.
|
|
-
PHCY 5145 - PBM Decisions Credits: 2 An overview of managed care pharmacy, with a focus on the relationship between cost controls and the access to pharmaceutical products and quality clinical services, and the relationships between, and relative responsibilities of, health plan sponsors, PBMs and providers.
Prerequisite: Must be enrolled in the HSA program, or by permission.
|
|
-
PHCY 5146 - HEOR Data Analytics Credits: 3 An introduction to analyzing medical and pharmacy data using SAS and SQL exploring the complexities of health data, focusing on phases of the data life cycle in health economics and outcomes research, including data validation and manipulation, merging data and creating data sets.
Prerequisite: Must be enrolled in the HSA program, or by permission.
|
|
-
PHCY 5147 - HEOR Data Analystics Credits: 3 This in an introduction to intermediate and advanced methods of analyzing healthcare data focusing on clinical risk adjustment models in SAS. This course will further explore the features and complexities of health data and build upon the Introduction to HEOR Data Analytics Using SAS I.
Prerequisite: PHCY 5146 and must be enrolled in the HSA program, or by permission.
|
|
-
PHCY 5148 - Health Economics and Policy Credits: 2 This course explores the financing and structure of the U. S. healthcare system with the purpose of understanding how these systems impact patient care, health policy, and economics. Topics include organization of healthcare systems, insurance programs, legislation, healthcare labor markets and drug costs.
Prerequisite: Must be enrolled in the HSA program, or by permission.
|
|
Page: 1 <- Back 10 … 37
| 38
| 39
| 40
| 41
| 42
| 43
| 44
| 45
| 46
| 47
… Forward 10 -> 55 |