An introduction to fundamental aquatic chemistry concepts frequently encountered in environmental science and engineering. An equilibrium approach with an emphasis on treatment process and natural water chemistry is employed. Both a qualitative and quantitative understanding of equilibrium calculations and the ability to apply both graphical and algebraic/numerical solution techniques to chemistry problems. Registration Restrictions: Registrants must be enrolled in the AEST, CE, or BIOL graduate programs, or gain instructor approval.
An introduction to fundamental aquatic chemistry concepts frequently encountered in environmental science and engineering. An equilibrium approach with an emphasis on treatment process and natural water chemistry is employed. Both a qualitative and quantitative understanding of equilibrium calculations and the ability to apply both graphical and algebraic/numerical solution techniques to chemistry problems. Registration Restrictions: Registrants must be enrolled in the AEST, CE, or BIOL graduate programs, or gain instructor approval.
An assessment of the rationale, concepts, institutions, and engineering aspects of water quality management. Regulatory processes, monitoring strategies and statistics, flow and mixing characteristics, pollutant chemistry, assessment strategies, point and nonpoint source characteristics, the Total Maximum Daily Load (TMDL) process, and mitigation measures are covered. Registration Restrictions: Registrants must be enrolled in the AEST, CE, or BIOL graduate programs, or gain instructor approval.
An assessment of the rationale, concepts, institutions, and engineering aspects of water quality management. Regulatory processes, monitoring strategies and statistics, flow and mixing characteristics, pollutant chemistry, assessment strategies, point and nonpoint source characteristics, the Total Maximum Daily Load (TMDL) process, and mitigation measures are covered. Registration Restrictions: Registrants must be enrolled in the AEST, CE, or BIOL graduate programs, or gain instructor approval.
Introductory graduate level course on understanding and navigating environmental laws and regulations. Students will learn the principles of the major environmental laws in the U.S., practice interpreting regulations, and prepare permits. Registration Restrictions: Bachelor of Science degree in a science or engineering discipline.
Introductory graduate level course on understanding and navigating environmental laws and regulations. Students will learn the principles of the major environmental laws in the U.S., practice interpreting regulations, and prepare permits. Registration Restrictions: Bachelor of Science degree in a science or engineering discipline.
Examines the National Environmental Policy Act (NEPA) requirements, including process, roles and responsibilities of involved parties, impact analysis, alternative development, stakeholder involvement and environmental conflict resolution. Subject matter experts from State and Federal agencies, industry, environmental nongovernmental organizations and utilities will provide their perspectives on NEPA. Registration Restrictions: Bachelor of Science degree in a science or engineering discipline.
Examines the National Environmental Policy Act (NEPA) requirements, including process, roles and responsibilities of involved parties, impact analysis, alternative development, stakeholder involvement and environmental conflict resolution. Subject matter experts from State and Federal agencies, industry, environmental nongovernmental organizations and utilities will provide their perspectives on NEPA. Registration Restrictions: Bachelor of Science degree in a science or engineering discipline.
An overview of the structure, methods and assessment tools needed to conduct graduate level research in environmental science and engineering fields. The course is designed to guide the student through the process of establishing, organizing, writing and presenting a graduate level research project conducive to a publication, thesis or proposal. Registration Restrictions: Graduate standing in AEST program, Civil Engineering or instructor permission.
An overview of the structure, methods and assessment tools needed to conduct graduate level research in environmental science and engineering fields. The course is designed to guide the student through the process of establishing, organizing, writing and presenting a graduate level research project conducive to a publication, thesis or proposal. Registration Restrictions: Graduate standing in AEST program, Civil Engineering or instructor permission.
A698Individual Research
1.0
DaysTimeLocationInstructorOpen Seats
Soria, J15
CRN: 71575 Section: 601 Date Range: 08/26-12/14
A course to be designed between the student and faculty member to allow the student the chance to pursue special advanced interests in engineering at the graduate level. Registration Restrictions: Registrants must be enrolled in the AEST, CE, or BIOL graduate programs, or gain instructor approval.
A course to be designed between the student and faculty member to allow the student the chance to pursue special advanced interests in engineering at the graduate level. Registration Restrictions: Registrants must be enrolled in the AEST, CE, or BIOL graduate programs, or gain instructor approval.
A course to be designed between the student and faculty member to allow the student the chance to pursue special advanced interests in engineering at the graduate level. Registration Restrictions: Registrants must be enrolled in the AEST, CE, or BIOL graduate programs, or gain instructor approval.
Arranged between the advisor and the student. Generally the student has been admitted to candidacy for the master's degree and a thesis committee is formed. The student must take an oral exam defending the thesis. Registration Restrictions: Registrants must be enrolled in the AEST graduate program.
Arranged between the advisor and the student. Generally the student has been admitted to candidacy for the master's degree and a thesis committee is formed. The student must take an oral exam defending the thesis. Registration Restrictions: Registrants must be enrolled in the AEST graduate program.
Arranged between the advisor and the student. Generally the student has been admitted to candidacy for the master's degree and a thesis committee is formed. The student must take an oral exam defending the thesis. Registration Restrictions: Registrants must be enrolled in the AEST graduate program.
Arranged between the advisor and the student. Generally the student has been admitted to candidacy for the master's degree and a thesis committee is formed. The student must take an oral exam defending the thesis. Registration Restrictions: Registrants must be enrolled in the AEST graduate program.
Experimental investigation of the properties of civil engineering materials and the basic principles of mechanics. The development of testing procedures, the use of standard testing procedures, and the interpretation of data are also covered. There is a strong emphasis on technical report writing.
Experimental investigation of the properties of civil engineering materials and the basic principles of mechanics. The development of testing procedures, the use of standard testing procedures, and the interpretation of data are also covered. There is a strong emphasis on technical report writing.
Introduction to planning and engineering of transportation systems and their functions, components, and operation. Those systems include highways, airports, railroads, and water transportation with emphasis for highways on planning, geometrical design, traffic operations, and design of pavement structures.
Introduction to planning and engineering of transportation systems and their functions, components, and operation. Those systems include highways, airports, railroads, and water transportation with emphasis for highways on planning, geometrical design, traffic operations, and design of pavement structures.
Introduces students to a broad spectrum of engineering challenges unique to cold regions. Physical principles and practical data collection methods, analyses, designs, and construction methods are discussed. Students gain a working knowledge of cold regions engineering problems and modern solutions as a basis for more detailed study. Registration Restrictions: Junior or senior standing in an accredited undergraduate program in engineering. May be stacked with: CE A603
Introduces students to a broad spectrum of engineering challenges unique to cold regions. Physical principles and practical data collection methods, analyses, designs, and construction methods are discussed. Students gain a working knowledge of cold regions engineering problems and modern solutions as a basis for more detailed study. Registration Restrictions: Junior or senior standing in an accredited undergraduate program in engineering. May be stacked with: CE A603
Introduction to planning and engineering of transportation systems and their functions, components and operation. Those systems include highways, airports, railroads and water transportation with emphasis for highways regarding geometrical and pavement design.
Introduction to planning and engineering of transportation systems and their functions, components and operation. Those systems include highways, airports, railroads and water transportation with emphasis for highways regarding geometrical and pavement design.
Advanced knowledge of soil shear strength properties; analysis of slope stability, including seismic stability and design of slope stabilization; case histories study and applications to cold regions engineering problems. May be stacked with: CE A614 Registration Restrictions: Senior in Civil Engineering or instructor permission.
Advanced knowledge of soil shear strength properties; analysis of slope stability, including seismic stability and design of slope stabilization; case histories study and applications to cold regions engineering problems. May be stacked with: CE A614 Registration Restrictions: Senior in Civil Engineering or instructor permission.
Traffic engineering studies and analyses, traffic flow theory, traffic control systems design, signalization, and capacity analyses. May be stacked with: CE A623
Traffic engineering studies and analyses, traffic flow theory, traffic control systems design, signalization, and capacity analyses. May be stacked with: CE A623
Essentials of structural design in steel including building code requirements and standard practice for the design of basic structural elements and connections.
Essentials of structural design in steel including building code requirements and standard practice for the design of basic structural elements and connections.
Introduces the basics in civil engineering project planning and analysis. Defines problem statement and develops goals, objectives; generates alternatives and criteria for evaluation and implementation of civil engineering projects. Registration Restrictions: Senior standing in Civil Engineering.
Introduces the basics in civil engineering project planning and analysis. Defines problem statement and develops goals, objectives; generates alternatives and criteria for evaluation and implementation of civil engineering projects. Registration Restrictions: Senior standing in Civil Engineering.
Introduction to the fundamental theory, analysis and regulations of environmental engineering and applied environmental science. Topics include environmental chemistry, drinking water and wastewater treatment, air pollution and solid waste management. May be stacked with: CE A641
Introduction to the fundamental theory, analysis and regulations of environmental engineering and applied environmental science. Topics include environmental chemistry, drinking water and wastewater treatment, air pollution and solid waste management. May be stacked with: CE A641
Design of systems commonly used in environmental engineering practice with an emphasis on water and wastewater treatment. Design of unit processes and operations will be performed for both potable water and wastewater treatment. Selection of system components, design and performance calculations and complete engineering reports are required.
Design of systems commonly used in environmental engineering practice with an emphasis on water and wastewater treatment. Design of unit processes and operations will be performed for both potable water and wastewater treatment. Selection of system components, design and performance calculations and complete engineering reports are required.
Open channel flow theory including: steady and unsteady flow, water surface profiles and the impact of hydraulic structures; sediment transport under open channel flow. May be stacked with: CE A662
Open channel flow theory including: steady and unsteady flow, water surface profiles and the impact of hydraulic structures; sediment transport under open channel flow. May be stacked with: CE A662
Investigation of sediment transport and coastal processes on beaches and in riverine/estuarine environments. Study of underlying hydrodynamic principles and engineering practices that are used to understand and solve sediment transport and coastal problems. May be stacked with: CE A679
Investigation of sediment transport and coastal processes on beaches and in riverine/estuarine environments. Study of underlying hydrodynamic principles and engineering practices that are used to understand and solve sediment transport and coastal problems. May be stacked with: CE A679
Introduces students to a broad spectrum of engineering challenges that are unique to cold regions. Physical principles and practical data collection methods, analyses, designs, and construction methods are discussed. Students gain a working knowledge of cold-region engineering problems and modern solutions as a basis for detailed study. Registration Restrictions: Graduate standing with a baccalaureate degree in engineering. No previous credits for CE A403. May be stacked with: CE A403
Introduces students to a broad spectrum of engineering challenges that are unique to cold regions. Physical principles and practical data collection methods, analyses, designs, and construction methods are discussed. Students gain a working knowledge of cold-region engineering problems and modern solutions as a basis for detailed study. Registration Restrictions: Graduate standing with a baccalaureate degree in engineering. No previous credits for CE A403. May be stacked with: CE A403
A610Engineering Seismology
3.0
DaysTimeLocationInstructorOpen Seats
M05:30PM-8:15PMDutta, U15
CRN: 72264 Section: 601 Date Range: 08/26-12/14
Covers internal structure of the earth, causes and occurrence of earthquakes, seismic waves and their propagation, seismograms, strong ground motion measurements, accelerometers and seismic network, data processing and interpretation of strong motion records, estimation of ground motion parameters and spatial variability, probabilistic and deterministic seismic hazard assessment with special reference to Alaska. Registration Restrictions: Graduate level or undergraduate senior standing, or instructor permission.
Covers internal structure of the earth, causes and occurrence of earthquakes, seismic waves and their propagation, seismograms, strong ground motion measurements, accelerometers and seismic network, data processing and interpretation of strong motion records, estimation of ground motion parameters and spatial variability, probabilistic and deterministic seismic hazard assessment with special reference to Alaska. Registration Restrictions: Graduate level or undergraduate senior standing, or instructor permission.
Presents the analysis, design, and construction aspects of deep foundations and other special topics of deep foundations related to cold regions engineering. Specifically, this course will cover lateral earth pressures, lateral support systems, single pile and pile group behavior under vertical and lateral loads, including static and dynamic loading conditions, and the latest development in soil improvement and ground modification techniques. Special foundation engineering issues related to cold regions will also be discussed. Registration Restrictions: Undergraduate civil engineering senior, graduate standing in engineering, or instructor permission.
Presents the analysis, design, and construction aspects of deep foundations and other special topics of deep foundations related to cold regions engineering. Specifically, this course will cover lateral earth pressures, lateral support systems, single pile and pile group behavior under vertical and lateral loads, including static and dynamic loading conditions, and the latest development in soil improvement and ground modification techniques. Special foundation engineering issues related to cold regions will also be discussed. Registration Restrictions: Undergraduate civil engineering senior, graduate standing in engineering, or instructor permission.
Advanced knowledge of soil shear strength properties; analysis of slope stability, including seismic stability and design of slope stabilization; case histories study and applications to cold regions engineering problems. May be stacked with: CE A414 Registration Restrictions: Graduate standing or instructor permission.
Advanced knowledge of soil shear strength properties; analysis of slope stability, including seismic stability and design of slope stabilization; case histories study and applications to cold regions engineering problems. May be stacked with: CE A414 Registration Restrictions: Graduate standing or instructor permission.
Traffic engineering studies and analyses, traffic flow theory, traffic control systems design, signalization, and capacity analyses. May be stacked with: CE A423
Traffic engineering studies and analyses, traffic flow theory, traffic control systems design, signalization, and capacity analyses. May be stacked with: CE A423
Covers the computation of loads on structures using ASCE 7, Minimum Design Loads for Buildings and Other Structures. The computation of loads (dead, live, soil, flood, snow, wind, and seismic) and probable combinations of loads will be covered. Registration Restrictions: Graduate level or undergraduate senior standing, or instructor approval.
Covers the computation of loads on structures using ASCE 7, Minimum Design Loads for Buildings and Other Structures. The computation of loads (dead, live, soil, flood, snow, wind, and seismic) and probable combinations of loads will be covered. Registration Restrictions: Graduate level or undergraduate senior standing, or instructor approval.
Introduction to the fundamental theory, analysis and regulations of environmental engineering and applied environmental science. Topics include environmental chemistry, drinking water and wastewater treatment, air pollution and solid waste management. May be stacked with: CE A441 Registration Restrictions: Graduate standing in Civil Engineering or enrolled in AEST.
Introduction to the fundamental theory, analysis and regulations of environmental engineering and applied environmental science. Topics include environmental chemistry, drinking water and wastewater treatment, air pollution and solid waste management. May be stacked with: CE A441 Registration Restrictions: Graduate standing in Civil Engineering or enrolled in AEST.
Open channel flow theory including: steady and unsteady flow, water surface profiles and the impact of hydraulic structures; sediment transport under open channel flow. May be stacked with: CE A462 Registration Restrictions: Graduate standing in Civil Engineering.
Open channel flow theory including: steady and unsteady flow, water surface profiles and the impact of hydraulic structures; sediment transport under open channel flow. May be stacked with: CE A462 Registration Restrictions: Graduate standing in Civil Engineering.
A674Waves Tides Ocean Processes
3.0
DaysTimeLocationInstructorOpen Seats
T06:00PM-8:45PMSmith, O13
CRN: 78879 Section: 601 Date Range: 08/26-12/14
Introduction to the physical properties and behavior of sea water with the ocean basins, and the practice of ocean research and engineering. Introduction to the physical properties and behavior of free surface gravity waves, measurements and characterizations of ocean wave climate, and interactions of ocean waves with structures and natural coastal features. Registration Restrictions: Prerequisite and graduate standing, or instructor permission.
Introduction to the physical properties and behavior of sea water with the ocean basins, and the practice of ocean research and engineering. Introduction to the physical properties and behavior of free surface gravity waves, measurements and characterizations of ocean wave climate, and interactions of ocean waves with structures and natural coastal features. Registration Restrictions: Prerequisite and graduate standing, or instructor permission.
Introduction to planning and design of port and harbor facilities. Registration Restrictions: Graduate standing in Engineering or instructor permission. May be stacked with: CE A475
Introduction to planning and design of port and harbor facilities. Registration Restrictions: Graduate standing in Engineering or instructor permission. May be stacked with: CE A475
Investigation of sediment transport and coastal processes on beaches and in riverine/estuarine environments. Study of underlying hydrodynamic principles and engineering practices that are used to understand and solve sediment transport and coastal problems. Registration Restrictions: Graduate standing in Civil Engineering or instructor permission. May be stacked with: CE A479
Investigation of sediment transport and coastal processes on beaches and in riverine/estuarine environments. Study of underlying hydrodynamic principles and engineering practices that are used to understand and solve sediment transport and coastal problems. Registration Restrictions: Graduate standing in Civil Engineering or instructor permission. May be stacked with: CE A479
Physical, thermal, and mechanical properties of frozen soils, frost action, heat flow in soils, thaw behavior of frozen ground, foundations in frozen ground, construction ground freezing, pavement design, earthwork, and field investigations for frozen ground. Registration Restrictions: Graduate standing, with a baccalaureate degree in engineering, or upper class standing in an accredited undergraduate program in engineering.
Physical, thermal, and mechanical properties of frozen soils, frost action, heat flow in soils, thaw behavior of frozen ground, foundations in frozen ground, construction ground freezing, pavement design, earthwork, and field investigations for frozen ground. Registration Restrictions: Graduate standing, with a baccalaureate degree in engineering, or upper class standing in an accredited undergraduate program in engineering.
Aspects of hydrology and hydraulics unique to engineering problems of the North. Emphasis on Alaskan conditions, information from Canada and other circumpolar countries included. Registration Restrictions: Graduate standing, with degree in engineering or physical science, or upper class standing in an accredited undergraduate program in these categories.
Aspects of hydrology and hydraulics unique to engineering problems of the North. Emphasis on Alaskan conditions, information from Canada and other circumpolar countries included. Registration Restrictions: Graduate standing, with degree in engineering or physical science, or upper class standing in an accredited undergraduate program in these categories.
CRN: 78892 Section: 601 Date Range: 08/26-12/14 Section Title: Rural Water & Wastewater Trtmt
Study of selected topics in Civil Engineering. Special Note: May be repeated once for credit with a different topic. Registration Restrictions: Graduate standing or instructor permission.
Study of selected topics in Civil Engineering. Special Note: May be repeated once for credit with a different topic. Registration Restrictions: Graduate standing or instructor permission.
A course to be designed between the student and faculty member to allow students the chance to pursue special advanced interests in engineering at the MS level. Registration Restrictions: Faculty permission.
A course to be designed between the student and faculty member to allow students the chance to pursue special advanced interests in engineering at the MS level. Registration Restrictions: Faculty permission.
A course to be designed between the student and faculty member to allow students the chance to pursue special advanced interests in engineering at the MS level. Registration Restrictions: Faculty permission.
A course to be designed between the student and faculty member to allow students the chance to pursue special advanced interests in engineering at the MS level. Registration Restrictions: Faculty permission.
A course to be designed between the student and faculty member to allow students the chance to pursue special advanced interests in engineering at the MS level. Registration Restrictions: Faculty permission.
Offers a broad overview of computer science designed to provide students with an appreciation for and an understanding of the many different aspects of computer science. Topics include discrete mathematics, an introduction to programming languages, algorithmic problem solving, basic concepts in hardware, operating systems, networks, graphics, and an overview of the social context of computing. The following basic computer skills are expected: how to use a web browser, send email, edit with a word processor, copy files, open and save documents, and open and close windows. Special Note: Students who intend to major in computer science may take this course as preparation for their course of study. Registration Restrictions: If prerequisite is not satisfied, appropriate SAT or ACT scores or approved UAA Placement Test required.
Offers a broad overview of computer science designed to provide students with an appreciation for and an understanding of the many different aspects of computer science. Topics include discrete mathematics, an introduction to programming languages, algorithmic problem solving, basic concepts in hardware, operating systems, networks, graphics, and an overview of the social context of computing. The following basic computer skills are expected: how to use a web browser, send email, edit with a word processor, copy files, open and save documents, and open and close windows. Special Note: Students who intend to major in computer science may take this course as preparation for their course of study. Registration Restrictions: If prerequisite is not satisfied, appropriate SAT or ACT scores or approved UAA Placement Test required.
CRN: 78744 Section: 601 Date Range: 08/26-12/14 Section Title: SQL
Problem analysis and solution using a selected programming language. Special Note: May be repeated twice for credit with a change in language. Registration Restrictions: If prerequisite is not satisfied, appropriate SAT or ACT scores or approved UAA Placement Test required.
Problem analysis and solution using a selected programming language. Special Note: May be repeated twice for credit with a change in language. Registration Restrictions: If prerequisite is not satisfied, appropriate SAT or ACT scores or approved UAA Placement Test required.
CRN: 77870 Section: P31 Date Range: 08/26-12/14 Section Title: C# in Microsoft Visual Studio
Problem analysis and solution using a selected programming language. Special Note: May be repeated twice for credit with a change in language. Registration Restrictions: If prerequisite is not satisfied, appropriate SAT or ACT scores or approved UAA Placement Test required.
Problem analysis and solution using a selected programming language. Special Note: May be repeated twice for credit with a change in language. Registration Restrictions: If prerequisite is not satisfied, appropriate SAT or ACT scores or approved UAA Placement Test required.
Problem analysis and solution using a selected programming language. Special Note: May be repeated twice for credit with a change in language. Registration Restrictions: If prerequisite is not satisfied, appropriate SAT or ACT scores or approved UAA Placement Test required.
Problem analysis and solution using a selected programming language. Special Note: May be repeated twice for credit with a change in language. Registration Restrictions: If prerequisite is not satisfied, appropriate SAT or ACT scores or approved UAA Placement Test required.
Introduction to the syntax of the Java language and object-orientation with an emphasis on writing programs to solve problems. Registration Restrictions: If prerequisite is not satisfied, appropriate SAT or ACT scores or approved UAA placement test required.
Introduction to the syntax of the Java language and object-orientation with an emphasis on writing programs to solve problems. Registration Restrictions: If prerequisite is not satisfied, appropriate SAT or ACT scores or approved UAA placement test required.
Introduction to the syntax and semantics of the Visual Basic .NET programming language with an emphasis on writing programs to solve problems. Registration Restrictions: If prerequisite is not satisfied, appropriate SAT or ACT scores or approved UAA placement test required.
Introduction to the syntax and semantics of the Visual Basic .NET programming language with an emphasis on writing programs to solve problems. Registration Restrictions: If prerequisite is not satisfied, appropriate SAT or ACT scores or approved UAA placement test required.
Introduction to C programming for engineers. Students will learn a programming language that can be used in many aspects of the engineering field, specifically with applications interfacing with hardware devices. Students will gain basic programming skills, including variables, functions, structures, control structures, and conditional statements with applied reinforcement in engineering applications. Projects will focus on engineering applications in different fields.
Introduction to C programming for engineers. Students will learn a programming language that can be used in many aspects of the engineering field, specifically with applications interfacing with hardware devices. Students will gain basic programming skills, including variables, functions, structures, control structures, and conditional statements with applied reinforcement in engineering applications. Projects will focus on engineering applications in different fields.
Introduces components, circuits, and methods of analysis of DC and AC electrical systems. Covers node voltage and mesh current techniques, operation amplifiers, RL/RC/RLC natural and step response, analysis of AC circuits with complex impedance and phasors, and AC Power.
Introduces components, circuits, and methods of analysis of DC and AC electrical systems. Covers node voltage and mesh current techniques, operation amplifiers, RL/RC/RLC natural and step response, analysis of AC circuits with complex impedance and phasors, and AC Power.
Introduces components, circuits, and methods of analysis of DC and AC electrical systems. Covers node voltage and mesh current techniques, operation amplifiers, RL/RC/RLC natural and step response, analysis of AC circuits with complex impedance and phasors, and AC Power.
Analysis and design of electronic devices used as building blocks for construction of simple combinational and sequential digital systems. Presents formats for data storage, number systems and alphanumeric codes, and methods of implementing logical and arithmetic operations within computers. Relates hardware components' capabilities and limitations to design requirements for computer processing, memory and control functions. Crosslisted with CSCE A241.
Analysis and design of electronic devices used as building blocks for construction of simple combinational and sequential digital systems. Presents formats for data storage, number systems and alphanumeric codes, and methods of implementing logical and arithmetic operations within computers. Relates hardware components' capabilities and limitations to design requirements for computer processing, memory and control functions. Crosslisted with CSCE A241.
Analysis and design of electronic devices used as building blocks for construction of simple combinational and sequential digital systems. Presents formats for data storage, number systems and alphanumeric codes, and methods of implementing logical and arithmetic operations within computers. Relates hardware components' capabilities and limitations to design requirements for computer processing, memory and control functions. Crosslisted with CSCE A241.
Introduces MATLAB programming skills to students to solve problems in various electrical engineering focus areas including circuit analysis, signal analysis, and communication.
Introduces MATLAB programming skills to students to solve problems in various electrical engineering focus areas including circuit analysis, signal analysis, and communication.
An analysis of electric power systems, including topologies, ideal power transformers, balanced three-phase systems, symmetrical components, transmission line parameter calculation and power flow.
An analysis of electric power systems, including topologies, ideal power transformers, balanced three-phase systems, symmetrical components, transmission line parameter calculation and power flow.
Electromagnetic theory and applications. Static electric fields in free space and material media; steady current systems and associated magnetic effects. Includes magnetostatics, Maxwell's Equations, electromagnetic radiation, transmission lines and relativity. Crosslisted with PHYS A314.
Electromagnetic theory and applications. Static electric fields in free space and material media; steady current systems and associated magnetic effects. Includes magnetostatics, Maxwell's Equations, electromagnetic radiation, transmission lines and relativity. Crosslisted with PHYS A314.
Analysis using discrete time signals and Fast Fourier Transform (FFT), random signals and noise, analog signals and Fourier transform. Application of probability theory and random variables to analog and discrete signals.
Analysis using discrete time signals and Fast Fourier Transform (FFT), random signals and noise, analog signals and Fourier transform. Application of probability theory and random variables to analog and discrete signals.
A438*Design Electrical Engr System
3.0
DaysTimeLocationInstructorOpen Seats
Munk, J4
CRN: 73051 Section: 601 Date Range: 08/26-12/14
Capstone course in which electrical engineering students design an electrical engineering component or system starting with the initial design specification to the implementation and testing. Students apply knowledge and skills learned in their undergraduate curriculum. Registration Restrictions: Student must be in senior year of BSE degree program or obtain faculty permission. Completion of GER Tier 1 (basic college-level skills) courses.
Capstone course in which electrical engineering students design an electrical engineering component or system starting with the initial design specification to the implementation and testing. Students apply knowledge and skills learned in their undergraduate curriculum. Registration Restrictions: Student must be in senior year of BSE degree program or obtain faculty permission. Completion of GER Tier 1 (basic college-level skills) courses.
Capstone course in which electrical engineering students design an electrical engineering component or system starting with the initial design specification to the implementation and testing. Students apply knowledge and skills learned in their undergraduate curriculum. Registration Restrictions: Student must be in senior year of BSE degree program or obtain faculty permission. Completion of GER Tier 1 (basic college-level skills) courses.
Capstone course in which electrical engineering students design an electrical engineering component or system starting with the initial design specification to the implementation and testing. Students apply knowledge and skills learned in their undergraduate curriculum. Registration Restrictions: Student must be in senior year of BSE degree program or obtain faculty permission. Completion of GER Tier 1 (basic college-level skills) courses.
Develops the theory behind the design and operation of electronic communication systems. Includes the mathematical representation of signal and system components and their interaction. Covers power spectra, modulation techniques, frequency response of media and components, detection and recovery of information, and the effects of noise.
Develops the theory behind the design and operation of electronic communication systems. Includes the mathematical representation of signal and system components and their interaction. Covers power spectra, modulation techniques, frequency response of media and components, detection and recovery of information, and the effects of noise.
Feedback control of linear mechanical and electrical systems by using block diagrams with transfer functions of plants, controllers, sensors and actuators. Stability analysis with transfer-function and state-space models. Transient, steady-state analysis, frequency-domain analysis, and design of control systems with Bode plots and the Nyquist criterion. Crosslisted with ME A471.
Feedback control of linear mechanical and electrical systems by using block diagrams with transfer functions of plants, controllers, sensors and actuators. Stability analysis with transfer-function and state-space models. Transient, steady-state analysis, frequency-domain analysis, and design of control systems with Bode plots and the Nyquist criterion. Crosslisted with ME A471.
Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Orthographic projections, auxiliary views, sectional views, and layer management are explored and implemented in assigned engineering design projects. Part I of a three part series.
Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Orthographic projections, auxiliary views, sectional views, and layer management are explored and implemented in assigned engineering design projects. Part I of a three part series.
Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Orthographic projections, auxiliary views, sectional views, and layer management are explored and implemented in assigned engineering design projects. Part I of a three part series.
Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Orthographic projections, auxiliary views, sectional views, and layer management are explored and implemented in assigned engineering design projects. Part I of a three part series.
Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Orthographic projections, auxiliary views, sectional views, and layer management are explored and implemented in assigned engineering design projects. Part I of a three part series.
Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Object snaps, engineering drawing editing, blocks and external references, multi viewports and views, object linking and embedding, raster image manipulation, and basic 3-D modeling are explored and implemented in assigned engineering design projects. Part II of a three part series.
Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Object snaps, engineering drawing editing, blocks and external references, multi viewports and views, object linking and embedding, raster image manipulation, and basic 3-D modeling are explored and implemented in assigned engineering design projects. Part II of a three part series.
Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Object snaps, engineering drawing editing, blocks and external references, multi viewports and views, object linking and embedding, raster image manipulation, and basic 3-D modeling are explored and implemented in assigned engineering design projects. Part II of a three part series.
Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Object snaps, engineering drawing editing, blocks and external references, multi viewports and views, object linking and embedding, raster image manipulation, and basic 3-D modeling are explored and implemented in assigned engineering design projects. Part II of a three part series.
Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Object snaps, engineering drawing editing, blocks and external references, multi viewports and views, object linking and embedding, raster image manipulation, and basic 3-D modeling are explored and implemented in assigned engineering design projects. Part II of a three part series.
Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Surfaces, featured based modeling, solid editing, extraction of orthographic, auxiliary and section views from a 3-D model, printing and plotting are explored and implemented in assigned engineering design projects. Part III of a three part series.
Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Surfaces, featured based modeling, solid editing, extraction of orthographic, auxiliary and section views from a 3-D model, printing and plotting are explored and implemented in assigned engineering design projects. Part III of a three part series.
Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Surfaces, featured based modeling, solid editing, extraction of orthographic, auxiliary and section views from a 3-D model, printing and plotting are explored and implemented in assigned engineering design projects. Part III of a three part series.
Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Surfaces, featured based modeling, solid editing, extraction of orthographic, auxiliary and section views from a 3-D model, printing and plotting are explored and implemented in assigned engineering design projects. Part III of a three part series.
Applied engineering design course focusing on engineering graphics concepts using applied Computer-Aided Design (CAD) tools. Surfaces, featured based modeling, solid editing, extraction of orthographic, auxiliary and section views from a 3-D model, printing and plotting are explored and implemented in assigned engineering design projects. Part III of a three part series.
An introduction to engineering, both as a profession and as a field of study. Introduces students to the roles, responsibilities and capabilities of civil, computer systems, electrical and mechanical engineers.
An introduction to engineering, both as a profession and as a field of study. Introduces students to the roles, responsibilities and capabilities of civil, computer systems, electrical and mechanical engineers.
An introduction to engineering, both as a profession and as a field of study. Introduces students to the roles, responsibilities and capabilities of civil, computer systems, electrical and mechanical engineers.
An introduction to engineering, both as a profession and as a field of study. Introduces students to the roles, responsibilities and capabilities of civil, computer systems, electrical and mechanical engineers.
An introduction to engineering, both as a profession and as a field of study. Introduces students to the roles, responsibilities and capabilities of civil, computer systems, electrical and mechanical engineers.
An introduction to engineering, both as a profession and as a field of study. Introduces students to the roles, responsibilities and capabilities of civil, computer systems, electrical and mechanical engineers.
An introduction to engineering, both as a profession and as a field of study. Introduces students to the roles, responsibilities and capabilities of civil, computer systems, electrical and mechanical engineers.
An introduction to engineering, both as a profession and as a field of study. Introduces students to the roles, responsibilities and capabilities of civil, computer systems, electrical and mechanical engineers.
An introduction to engineering, both as a profession and as a field of study. Introduces students to the roles, responsibilities and capabilities of civil, computer systems, electrical and mechanical engineers.
Presents the basic skills required of engineers for using computers to solve engineering problems and presenting results in a professional form. Application of computation methods and tools for practicing engineering. Introduction to computer programming and engineering problem solving softwares including visual basic in spreadsheets, Matlab, and Mathcad.
Presents the basic skills required of engineers for using computers to solve engineering problems and presenting results in a professional form. Application of computation methods and tools for practicing engineering. Introduction to computer programming and engineering problem solving softwares including visual basic in spreadsheets, Matlab, and Mathcad.
Presents the basic skills required of engineers for using computers to solve engineering problems and presenting results in a professional form. Application of computation methods and tools for practicing engineering. Introduction to computer programming and engineering problem solving softwares including visual basic in spreadsheets, Matlab, and Mathcad.
Presents the basic skills required of engineers for using computers to solve engineering problems and presenting results in a professional form. Application of computation methods and tools for practicing engineering. Introduction to computer programming and engineering problem solving softwares including visual basic in spreadsheets, Matlab, and Mathcad.
Presents the basic skills required of engineers for using computers to solve engineering problems and presenting results in a professional form. Application of computation methods and tools for practicing engineering. Introduction to computer programming and engineering problem solving softwares including visual basic in spreadsheets, Matlab, and Mathcad.
Presents the basic skills required of engineers for using computers to solve engineering problems and presenting results in a professional form. Application of computation methods and tools for practicing engineering. Introduction to computer programming and engineering problem solving softwares including visual basic in spreadsheets, Matlab, and Mathcad.
Professional work experience designed to provide students with the opportunity to investigate the practical applications of engineering design within engineering organizations. Assignments and projects arranged with cooperating organizations and agencies. Registration Restrictions: Instructor permission.
Professional work experience designed to provide students with the opportunity to investigate the practical applications of engineering design within engineering organizations. Assignments and projects arranged with cooperating organizations and agencies. Registration Restrictions: Instructor permission.
Introduces the fundamentals of engineering graphics and provides training in visualization skills necessary for graphically presenting of engineering ideas using standard drawing techniques and Computer Aided Design (CAD).
Introduces the fundamentals of engineering graphics and provides training in visualization skills necessary for graphically presenting of engineering ideas using standard drawing techniques and Computer Aided Design (CAD).
Introduces the fundamentals of engineering graphics and provides training in visualization skills necessary for graphically presenting of engineering ideas using standard drawing techniques and Computer Aided Design (CAD).
Static and dynamic analysis of particles and rigid bodies. Statics topics covered include Newton's laws of motion, Newton's law of gravitational attraction, force and force systems, equilibrium, structural analysis, internal forces, friction, and center of gravity and centroid. Dynamics topics covered include particle and rigid body kinematics and kinetics, force and acceleration, work and energy, impulse and momentum, and vibrations.
Static and dynamic analysis of particles and rigid bodies. Statics topics covered include Newton's laws of motion, Newton's law of gravitational attraction, force and force systems, equilibrium, structural analysis, internal forces, friction, and center of gravity and centroid. Dynamics topics covered include particle and rigid body kinematics and kinetics, force and acceleration, work and energy, impulse and momentum, and vibrations.
Principles and analysis of static force systems, equilibrium, distributed forces, centroids, centers of gravity, moments of inertia, structures, friction, and virtual work.
Principles and analysis of static force systems, equilibrium, distributed forces, centroids, centers of gravity, moments of inertia, structures, friction, and virtual work.
Principles and analysis of static force systems, equilibrium, distributed forces, centroids, centers of gravity, moments of inertia, structures, friction, and virtual work.
Kinematics and kinetics of particles and rigid bodies with applications of Newton's second law and principles of work-energy, impulse-momentum, and vibration.
Kinematics and kinetics of particles and rigid bodies with applications of Newton's second law and principles of work-energy, impulse-momentum, and vibration.
Electrical fundamentals: elementary circuit analysis, network theorems, steady state, and transient analysis of DC circuits with resistors and one energy storage device (L or C). Steady state analysis of AC circuits with resistors, capacitors, and inductors using complex number and phasor representation. Power in DC and AC circuits. Transformers, meters, and applications of simple electrical components and circuits.
Electrical fundamentals: elementary circuit analysis, network theorems, steady state, and transient analysis of DC circuits with resistors and one energy storage device (L or C). Steady state analysis of AC circuits with resistors, capacitors, and inductors using complex number and phasor representation. Power in DC and AC circuits. Transformers, meters, and applications of simple electrical components and circuits.
Stress-strain relations, axially loaded and torsional members, review of shear and bending moment diagrams for beams, flexural and shearing stresses, deflections of beams, plane stress, combined stresses, buckling of columns, elementary design of beams and columns.
Stress-strain relations, axially loaded and torsional members, review of shear and bending moment diagrams for beams, flexural and shearing stresses, deflections of beams, plane stress, combined stresses, buckling of columns, elementary design of beams and columns.
Introduction to physical properties and behavior of fluids. Topics include hydrostatics and dynamics of liquids and gases, dimensional analysis, fluid forces on immersed bodies, pipe flow, fluid machinery, and open channel flow.
Introduction to physical properties and behavior of fluids. Topics include hydrostatics and dynamics of liquids and gases, dimensional analysis, fluid forces on immersed bodies, pipe flow, fluid machinery, and open channel flow.
Provides supplemental explanation and practical exercises applying physical properties and behavior of fluids, including hydrostatics, fluid forces, pipe flow, fluid machinery, and open channel flow.
Provides supplemental explanation and practical exercises applying physical properties and behavior of fluids, including hydrostatics, fluid forces, pipe flow, fluid machinery, and open channel flow.
Provides supplemental explanation and practical exercises applying physical properties and behavior of fluids, including hydrostatics, fluid forces, pipe flow, fluid machinery, and open channel flow.
Provides supplemental explanation and practical exercises applying physical properties and behavior of fluids, including hydrostatics, fluid forces, pipe flow, fluid machinery, and open channel flow.
Provides supplemental explanation and practical exercises applying physical properties and behavior of fluids, including hydrostatics, fluid forces, pipe flow, fluid machinery, and open channel flow.
Thermodynamics systems, properties, processes, and cycles. Fundamental principles of thermodynamics (first and second laws), and elementary applications.
Thermodynamics systems, properties, processes, and cycles. Fundamental principles of thermodynamics (first and second laws), and elementary applications.
Introduction to design and maintenance of facilities in northern climates to construct sustainable, energy-efficient and durable buildings and infrastructure suitable for the unique needs of northern inhabitants. Registration Restrictions: Senior standing or graduate standing in an accredited program in architecture or engineering, or instructor permission.
Introduction to design and maintenance of facilities in northern climates to construct sustainable, energy-efficient and durable buildings and infrastructure suitable for the unique needs of northern inhabitants. Registration Restrictions: Senior standing or graduate standing in an accredited program in architecture or engineering, or instructor permission.
Introduction to design and maintenance of facilities in northern climates to construct sustainable, energy-efficient and durable buildings and infrastructure suitable for the unique needs of northern inhabitants. Registration Restrictions: Senior standing or graduate standing in an accredited program in architecture or engineering, or instructor permission.
Introduces students to a broad spectrum of engineering challenges that are unique to cold regions of the world. Physical principles and practical data collection, analysis, design, and construction methods are discussed. Students gain a working knowledge of cold regions engineering problems and modern solutions. Registration Restrictions: Degree in engineering, architecture, landscape architecture, geomatics, or physical science, upper class standing in an undergraduate program in these categories, or instructor permission.
Introduces students to a broad spectrum of engineering challenges that are unique to cold regions of the world. Physical principles and practical data collection, analysis, design, and construction methods are discussed. Students gain a working knowledge of cold regions engineering problems and modern solutions. Registration Restrictions: Degree in engineering, architecture, landscape architecture, geomatics, or physical science, upper class standing in an undergraduate program in these categories, or instructor permission.
Fundamentals of engineering economy, project scheduling, estimating, legal principles, professional ethics, and human relations. Special Note: Not offered for credit toward the Master of Science in engineering management or science management. Offered Spring Semesters.
Fundamentals of engineering economy, project scheduling, estimating, legal principles, professional ethics, and human relations. Special Note: Not offered for credit toward the Master of Science in engineering management or science management. Offered Spring Semesters.
Fundamentals of engineering economy, project scheduling, estimating, legal principles, professional ethics, and human relations. Special Note: Not offered for credit toward the Master of Science in engineering management or science management. Offered Spring Semesters.
Development of organizations and techniques appropriate to managing engineering and scientific effort. Included will be a study of engineering and scientific activity and personnel in order to organize, motivate, evaluate, develop, and coordinate for maximum effectiveness, with due consideration to the goals of individuals. Registration Restrictions: BS degree in Engineering or in a physical science.
Development of organizations and techniques appropriate to managing engineering and scientific effort. Included will be a study of engineering and scientific activity and personnel in order to organize, motivate, evaluate, develop, and coordinate for maximum effectiveness, with due consideration to the goals of individuals. Registration Restrictions: BS degree in Engineering or in a physical science.
Devoted to those aspects of law specifically related to technical management: contracts, sales, real property, business organization, labor, patents, and insurance.
Devoted to those aspects of law specifically related to technical management: contracts, sales, real property, business organization, labor, patents, and insurance.
Development of an overall perspective on the role of statistics within the framework of engineering and management decision making. Includes the use of statistical software. Registration Restrictions: Undergraduate statistics course.
Development of an overall perspective on the role of statistics within the framework of engineering and management decision making. Includes the use of statistical software. Registration Restrictions: Undergraduate statistics course.
Mathematical techniques for aiding managerial decision making. Topics will include waiting line theory, inventory models, linear programming, transportation problems, dynamic programming, PERT/CPM, Markov chains, and simulation. The emphasis is on the application of techniques to engineering management situations. Registration Restrictions: Undergraduate probability and statistics course.
Mathematical techniques for aiding managerial decision making. Topics will include waiting line theory, inventory models, linear programming, transportation problems, dynamic programming, PERT/CPM, Markov chains, and simulation. The emphasis is on the application of techniques to engineering management situations. Registration Restrictions: Undergraduate probability and statistics course.
Mathematical techniques for aiding managerial decision making. Topics will include waiting line theory, inventory models, linear programming, transportation problems, dynamic programming, PERT/CPM, Markov chains, and simulation. The emphasis is on the application of techniques to engineering management situations. Registration Restrictions: Undergraduate probability and statistics course.
Introduction to cartographic methods, design, and map reading. Basic map components, including projections, text, line work, and data symbolization. Projects will be completed using traditional and computer cartographic techniques. Mapping basics integral to all Geomatics courses and essential in the preparation of students from all disciplines for further mapping and GIS courses. Registration Restrictions: Computer competency (see admission requirements) or instructor approval. Special Note: Offered Fall Semesters.
Introduction to cartographic methods, design, and map reading. Basic map components, including projections, text, line work, and data symbolization. Projects will be completed using traditional and computer cartographic techniques. Mapping basics integral to all Geomatics courses and essential in the preparation of students from all disciplines for further mapping and GIS courses. Registration Restrictions: Computer competency (see admission requirements) or instructor approval. Special Note: Offered Fall Semesters.
Introduction to Geomatics and survey measurement techniques, including the use of levels, theodolites, and total stations, and GPS. Methods of recording and reducing field data. Use of hand-held calculators to compute directions, survey errors, closures, adjustments, and area. Geomatics projects and field trips. Review of historical survey techniques and the Public Land Survey System. Introduction to horizontal curves. Registration Restrictions: See admission requirements. Special Note: Offered Fall Semesters.
Introduction to Geomatics and survey measurement techniques, including the use of levels, theodolites, and total stations, and GPS. Methods of recording and reducing field data. Use of hand-held calculators to compute directions, survey errors, closures, adjustments, and area. Geomatics projects and field trips. Review of historical survey techniques and the Public Land Survey System. Introduction to horizontal curves. Registration Restrictions: See admission requirements. Special Note: Offered Fall Semesters.
Introduction for Geomatics majors and non-majors to the principles of computer aided design and mapping. AutoCAD, Land Development Desktop, and class projects will be used to introduce the basics of digital cartography and provide a knowledge base essential for future Geomatics courses and career preparation. Special Note: Offered Fall Semesters.
Introduction for Geomatics majors and non-majors to the principles of computer aided design and mapping. AutoCAD, Land Development Desktop, and class projects will be used to introduce the basics of digital cartography and provide a knowledge base essential for future Geomatics courses and career preparation. Special Note: Offered Fall Semesters.
Use of computational devices with applications in Geomatics. The basics of Reverse Polish Notation and keystroke programming will be covered. Use of Excel and MATLAB to solve geomatics problems will be emphasized. Special Note: To be taken concurrently with ENGR A161. Registration Restrictions: Prerequisites may be waived by instructor based on student's prior experience.
Use of computational devices with applications in Geomatics. The basics of Reverse Polish Notation and keystroke programming will be covered. Use of Excel and MATLAB to solve geomatics problems will be emphasized. Special Note: To be taken concurrently with ENGR A161. Registration Restrictions: Prerequisites may be waived by instructor based on student's prior experience.
Basic construction surveying procedures, including staking for roads, buildings and excavations; use of maps, construction plans, datums and co-ordinate systems; machine control systems. The course is predominantly field work.
Basic construction surveying procedures, including staking for roads, buildings and excavations; use of maps, construction plans, datums and co-ordinate systems; machine control systems. The course is predominantly field work.
Basic construction surveying procedures, including staking for roads, buildings and excavations; use of maps, construction plans, datums and co-ordinate systems; machine control systems. The course is predominantly field work.
Theory and application of engineering surveying, including design and implementation of horizontal and vertical control. Route surveys, horizontal and vertical curves, control surveys, quantity and as-built surveys. Mining surveys, terrestrial scanners. Application of the theory of errors, error budgets and error simulation.
Theory and application of engineering surveying, including design and implementation of horizontal and vertical control. Route surveys, horizontal and vertical curves, control surveys, quantity and as-built surveys. Mining surveys, terrestrial scanners. Application of the theory of errors, error budgets and error simulation.
Theory and application of engineering surveying, including design and implementation of horizontal and vertical control. Route surveys, horizontal and vertical curves, control surveys, quantity and as-built surveys. Mining surveys, terrestrial scanners. Application of the theory of errors, error budgets and error simulation.
Introduction to photogrammetric mapping including history, aerial cameras, optics, geometry of the aerial photograph, stereoscopes, parallax, and flight planning. Basic mathematics of photogrammetry and transformations. Techniques in the use of stereoscopes and photogrammetric plotters. Special Note: Offered Fall Semesters.
Introduction to photogrammetric mapping including history, aerial cameras, optics, geometry of the aerial photograph, stereoscopes, parallax, and flight planning. Basic mathematics of photogrammetry and transformations. Techniques in the use of stereoscopes and photogrammetric plotters. Special Note: Offered Fall Semesters.
Advanced survey measurement techniques. Use of conventional survey instrumentation, total stations and data controllers. Acquisition and retrieval of geomatics data from data controllers. Horizontal and vertical traversing and adjustment methods. Basics of GPS control surveying. Topographic surveying projects.
Advanced survey measurement techniques. Use of conventional survey instrumentation, total stations and data controllers. Acquisition and retrieval of geomatics data from data controllers. Horizontal and vertical traversing and adjustment methods. Basics of GPS control surveying. Topographic surveying projects.
Elements of boundary control and legal principles, boundary history, ownership, rights, interests, title, transfer and description of real property, the rectangular system, retracements, restoration of corners, locating sequential conveyances and simultaneously created boundaries, combination descriptions and conveyances, easements, riparian and littoral boundaries including riparian rights, navigability, public water, erosion, accretion, avulsion, reliction, and other water boundary elements. Special Note: Offered Fall Semesters.
Elements of boundary control and legal principles, boundary history, ownership, rights, interests, title, transfer and description of real property, the rectangular system, retracements, restoration of corners, locating sequential conveyances and simultaneously created boundaries, combination descriptions and conveyances, easements, riparian and littoral boundaries including riparian rights, navigability, public water, erosion, accretion, avulsion, reliction, and other water boundary elements. Special Note: Offered Fall Semesters.
An introduction to the engineering design process as used by geomatics professionals. Determining objectives and design criteria, research, and analysis in geomatics problem solving. Analysis of legal and similar arguments in geomatics. The course has an emphasis on developing open-ended problem-solving skills, including solving ethical and legal geomatics problems. Registration Restrictions: Junior or senior standing.
An introduction to the engineering design process as used by geomatics professionals. Determining objectives and design criteria, research, and analysis in geomatics problem solving. Analysis of legal and similar arguments in geomatics. The course has an emphasis on developing open-ended problem-solving skills, including solving ethical and legal geomatics problems. Registration Restrictions: Junior or senior standing.
Communications within geomatics engineering design groups, and between the groups and the wider community. Geomatics communications using a range of media and styles. Groupware and its use in geomatics. Introduction to organizational skills, with an emphasis on understanding how modern businesses involved in geomatics operate. Consulting in the geomatics industry. Registration Restrictions: Junior or senior standing; completion of GER Tier I (basic college-level skills) courses.
Communications within geomatics engineering design groups, and between the groups and the wider community. Geomatics communications using a range of media and styles. Groupware and its use in geomatics. Introduction to organizational skills, with an emphasis on understanding how modern businesses involved in geomatics operate. Consulting in the geomatics industry. Registration Restrictions: Junior or senior standing; completion of GER Tier I (basic college-level skills) courses.
Concepts governing land development. Analysis of soil, topography, geometry, environmental impact, aesthetic and economic principles in land planning. Permitting process. Federal, state, and municipality platting regulations. Automated subdivision design and platting. Ethical considerations when developing land. Special Note: Offered Fall Semesters.
Concepts governing land development. Analysis of soil, topography, geometry, environmental impact, aesthetic and economic principles in land planning. Permitting process. Federal, state, and municipality platting regulations. Automated subdivision design and platting. Ethical considerations when developing land. Special Note: Offered Fall Semesters.
Advanced principles of computer-aided design and mapping. Organization, filing, and database principles. Programming routines in Auto Visual Basic and AutoLISP languages.
Advanced principles of computer-aided design and mapping. Organization, filing, and database principles. Programming routines in Auto Visual Basic and AutoLISP languages.
Introduction to geometric geodesy. Computations on the ellipsoid. Elements of datums. Map projections and state plane coordinate systems. Coordinate transformations. Special Note: Offered Fall Semesters.
Introduction to geometric geodesy. Computations on the ellipsoid. Elements of datums. Map projections and state plane coordinate systems. Coordinate transformations. Special Note: Offered Fall Semesters.
Provides students with knowledge of and skills to apply physical principles, instrumentation, data analysis methods, and visualization products associated with hydrographic surveying, chart publication, and related marine measurement practices of government and industry. Registration Restrictions: Upper class undergraduate or graduate standing in either Geomatics or Civil Engineering, or instructor's permission. Special Note: Offered Fall Semesters.
Provides students with knowledge of and skills to apply physical principles, instrumentation, data analysis methods, and visualization products associated with hydrographic surveying, chart publication, and related marine measurement practices of government and industry. Registration Restrictions: Upper class undergraduate or graduate standing in either Geomatics or Civil Engineering, or instructor's permission. Special Note: Offered Fall Semesters.
Projects in Geomatics and Geographic Information Systems (GIS). Research, design, data compilation, analysis and mapping for a Geomatics project. Professional standards and ethical concerns for Geomatics professionals. Registration Restrictions: Prerequisites may be waived by instructor based on student's prior experience. Completion of GER Tier I (basic college-level skills) courses.
Projects in Geomatics and Geographic Information Systems (GIS). Research, design, data compilation, analysis and mapping for a Geomatics project. Professional standards and ethical concerns for Geomatics professionals. Registration Restrictions: Prerequisites may be waived by instructor based on student's prior experience. Completion of GER Tier I (basic college-level skills) courses.
Introduction to fundamentals of GIS, including common uses and technical concepts, e.g., data structures (raster and vector), data sources, metadata, databases, coordinate systems, geocoding, spatial analysis, georeferencing, cartographic design and map compilation. Investigation of spatial data quality and accuracy. Application of GIS analysis functions and standard query languages. Application of GIS to real-world problems.
Introduction to fundamentals of GIS, including common uses and technical concepts, e.g., data structures (raster and vector), data sources, metadata, databases, coordinate systems, geocoding, spatial analysis, georeferencing, cartographic design and map compilation. Investigation of spatial data quality and accuracy. Application of GIS analysis functions and standard query languages. Application of GIS to real-world problems.
Introduction to fundamentals of GIS, including common uses and technical concepts, e.g., data structures (raster and vector), data sources, metadata, databases, coordinate systems, geocoding, spatial analysis, georeferencing, cartographic design and map compilation. Investigation of spatial data quality and accuracy. Application of GIS analysis functions and standard query languages. Application of GIS to real-world problems.
Analysis and modeling of spatial and attribute data: theoretical foundation and practical applications. Spatial and non-spatial databases, SQL, retrieval and indexing. Spatial statistics and their application in GIS analysis. Basic network analysis, surface interpolation and modeling. Error modeling and representation in GIS. Registration Restrictions: Prerequisites may be waived by instructor based on student's prior experience.
Analysis and modeling of spatial and attribute data: theoretical foundation and practical applications. Spatial and non-spatial databases, SQL, retrieval and indexing. Spatial statistics and their application in GIS analysis. Basic network analysis, surface interpolation and modeling. Error modeling and representation in GIS. Registration Restrictions: Prerequisites may be waived by instructor based on student's prior experience.
Analysis and modeling of spatial and attribute data: theoretical foundation and practical applications. Spatial and non-spatial databases, SQL, retrieval and indexing. Spatial statistics and their application in GIS analysis. Basic network analysis, surface interpolation and modeling. Error modeling and representation in GIS. Registration Restrictions: Prerequisites may be waived by instructor based on student's prior experience.
Analysis and modeling of spatial and attribute data: theoretical foundation and practical applications. Spatial and non-spatial databases, SQL, retrieval and indexing. Spatial statistics and their application in GIS analysis. Basic network analysis, surface interpolation and modeling. Error modeling and representation in GIS. Registration Restrictions: Prerequisites may be waived by instructor based on student's prior experience.
Develops the students' ability to use remotely sensed data within the framework of GIS. Covers basic physics theory required for the use of remotely sensing technology. Includes practical applications of the science using remotely sensed data, including the use of industry standard GIS software packages.
Develops the students' ability to use remotely sensed data within the framework of GIS. Covers basic physics theory required for the use of remotely sensing technology. Includes practical applications of the science using remotely sensed data, including the use of industry standard GIS software packages.
This course is an introduction to the use of solid modeling in engineering. The process of creating solid parts, assemblies, and fabrication-ready drawings in addition to kinematics linkages will be covered. Rapid prototyping technologies such as three dimensional printing will be used as laboratory exercises.
This course is an introduction to the use of solid modeling in engineering. The process of creating solid parts, assemblies, and fabrication-ready drawings in addition to kinematics linkages will be covered. Rapid prototyping technologies such as three dimensional printing will be used as laboratory exercises.
Modeling of vibratory mechanical systems with single and multiple degrees of freedom. Study of free and forced vibrations with or without damping by lumped-parameter methods and finite element analysis. Vibrations of rotor systems and vibration monitoring. Special Note: Not available for credit to students who have completed ME A608. May be stacked with: ME A608
Modeling of vibratory mechanical systems with single and multiple degrees of freedom. Study of free and forced vibrations with or without damping by lumped-parameter methods and finite element analysis. Vibrations of rotor systems and vibration monitoring. Special Note: Not available for credit to students who have completed ME A608. May be stacked with: ME A608
Course introduces students to the design of power and space conditioning systems, energy conversion, heating, ventilating, air conditioning, refrigeration (HVAC&R), and steady-state simulation of thermal systems.
Course introduces students to the design of power and space conditioning systems, energy conversion, heating, ventilating, air conditioning, refrigeration (HVAC&R), and steady-state simulation of thermal systems.
Provides supplemental explanation and practical exercises applying thermal system design and heating, ventilation and air conditioning (HVAC) concepts including refrigeration systems, psychrometric applications, air handling unit designs, pipe and pump designs, and fan and air distribution designs.
Provides supplemental explanation and practical exercises applying thermal system design and heating, ventilation and air conditioning (HVAC) concepts including refrigeration systems, psychrometric applications, air handling unit designs, pipe and pump designs, and fan and air distribution designs.
Capstone course in which mechanical engineering students design a mechanical engineering component or system starting with the initial design specification to the implementation and testing. Students apply knowledge and skills learned in their undergraduate curriculum. Registration Restrictions: Student must be in senior year of BSE degree program or obtain faculty permission. Completion of GER Tier 1 (basic college-level skills) courses.
Capstone course in which mechanical engineering students design a mechanical engineering component or system starting with the initial design specification to the implementation and testing. Students apply knowledge and skills learned in their undergraduate curriculum. Registration Restrictions: Student must be in senior year of BSE degree program or obtain faculty permission. Completion of GER Tier 1 (basic college-level skills) courses.
Application of heat and mass transfer concepts to engineering problems including steady state and transient conduction, numerical analysis of heat transfer problems, laminar and turbulent free and forced convection, and black body and real surface radiation.
Application of heat and mass transfer concepts to engineering problems including steady state and transient conduction, numerical analysis of heat transfer problems, laminar and turbulent free and forced convection, and black body and real surface radiation.
Provides supplemental explanation and practical exercises applying heat and mass transfer concepts to engineering problems including steady state and transient conduction, numerical analysis of heat transfer problems, laminar and turbulent free and forced convection, and black body and real surface radiation.
Provides supplemental explanation and practical exercises applying heat and mass transfer concepts to engineering problems including steady state and transient conduction, numerical analysis of heat transfer problems, laminar and turbulent free and forced convection, and black body and real surface radiation.
The topics of theoretical, experimental, and applied fracture of solids, structures, and machines, subcritical crack growth including fatigue, creep, and corrosion, embrittlement, safety, and life cycle design and analysis will be presented. Case studies will be used to illustrate the course topics. May be stacked with: ME A659
The topics of theoretical, experimental, and applied fracture of solids, structures, and machines, subcritical crack growth including fatigue, creep, and corrosion, embrittlement, safety, and life cycle design and analysis will be presented. Case studies will be used to illustrate the course topics. May be stacked with: ME A659
Feedback control of linear mechanical and electrical systems by using block diagrams with transfer functions of plants, controllers, sensors and actuators. Stability analysis with transfer-function and state-space models. Transient, steady-state analysis, frequency-domain analysis, and design of control systems with Bode plots and the Nyquist criterion. Crosslisted with EE A471.
Feedback control of linear mechanical and electrical systems by using block diagrams with transfer functions of plants, controllers, sensors and actuators. Stability analysis with transfer-function and state-space models. Transient, steady-state analysis, frequency-domain analysis, and design of control systems with Bode plots and the Nyquist criterion. Crosslisted with EE A471.
Modeling of vibratory mechanical systems with single and multiple degrees of freedom. Study of free and forced vibrations with or without damping by lumped-parameter methods and finite element analysis. Vibrations of rotor systems and vibration monitoring. Special Note: Not available for credit to students who have completed ME A408. Registration Restrictions: Graduate standing or instructor permission. May be stacked with: ME A408
Modeling of vibratory mechanical systems with single and multiple degrees of freedom. Study of free and forced vibrations with or without damping by lumped-parameter methods and finite element analysis. Vibrations of rotor systems and vibration monitoring. Special Note: Not available for credit to students who have completed ME A408. Registration Restrictions: Graduate standing or instructor permission. May be stacked with: ME A408
Theoretical, experimental, and applied fracture of solids, structures, and machines, subcritical crack growth including fatigue, creep, and corrosion, embrittlement, safety, and life cycle design and analysis will be presented. Case studies will be used to illustrate the course topics. May be stacked with: ME A459
Theoretical, experimental, and applied fracture of solids, structures, and machines, subcritical crack growth including fatigue, creep, and corrosion, embrittlement, safety, and life cycle design and analysis will be presented. Case studies will be used to illustrate the course topics. May be stacked with: ME A459
The study of different corrosion processes and mechanisms. Topics include the concepts, materials, and mechanisms of corrosion with application to engineering design for corrosion prevention. Registration Restrictions: Prerequisite and graduate standing, or faculty permission.
The study of different corrosion processes and mechanisms. Topics include the concepts, materials, and mechanisms of corrosion with application to engineering design for corrosion prevention. Registration Restrictions: Prerequisite and graduate standing, or faculty permission.
Application of the principles of heat and mass transfer with special emphasis on application to problems encountered in the Arctic such as ice and frost formation, permafrost, condensation, and heat loss in structures. Registration Restrictions: Graduate standing, with a degree in engineering or physical science, or upper class standing in an accredited undergraduate program in these categories.
Application of the principles of heat and mass transfer with special emphasis on application to problems encountered in the Arctic such as ice and frost formation, permafrost, condensation, and heat loss in structures. Registration Restrictions: Graduate standing, with a degree in engineering or physical science, or upper class standing in an accredited undergraduate program in these categories.
This course will explore the orchestration of work in multiple project disciplines and the integration of logistics throughout the entire project and product lifecycle. Registration Restrictions: Junior level in standing. May be stacked with: PM A694E
This course will explore the orchestration of work in multiple project disciplines and the integration of logistics throughout the entire project and product lifecycle. Registration Restrictions: Junior level in standing. May be stacked with: PM A694E
Fundamental concepts of project process, stakeholders and organization environment necessary for successful project management. Team-based term projects will be developed, discussed, and presented. Major project management software will be introduced. Registration Restrictions: Graduate level standing. Special Note: It is highly recommended that PM A601 be taken in the first semester.
Fundamental concepts of project process, stakeholders and organization environment necessary for successful project management. Team-based term projects will be developed, discussed, and presented. Major project management software will be introduced. Registration Restrictions: Graduate level standing. Special Note: It is highly recommended that PM A601 be taken in the first semester.
Fundamental concepts of project process, stakeholders and organization environment necessary for successful project management. Team-based term projects will be developed, discussed, and presented. Major project management software will be introduced. Registration Restrictions: Graduate level standing. Special Note: It is highly recommended that PM A601 be taken in the first semester.
Application of project management processes from project inception through closeout. Integration of project management processes in all nine Knowledge Areas through use of hands-on, end-to-end project case studies. Demonstrates mastery of project leadership, project requirements definition, stakeholder management, change control, schedule management, risk management, professional responsibility, effective communication and teamwork. Registration Restrictions: Graduate level standing and PM Department approval
Application of project management processes from project inception through closeout. Integration of project management processes in all nine Knowledge Areas through use of hands-on, end-to-end project case studies. Demonstrates mastery of project leadership, project requirements definition, stakeholder management, change control, schedule management, risk management, professional responsibility, effective communication and teamwork. Registration Restrictions: Graduate level standing and PM Department approval
Application of project management processes from project inception through closeout. Integration of project management processes in all nine Knowledge Areas through use of hands-on, end-to-end project case studies. Demonstrates mastery of project leadership, project requirements definition, stakeholder management, change control, schedule management, risk management, professional responsibility, effective communication and teamwork. Registration Restrictions: Graduate level standing and PM Department approval
Explore in depth Project Management (PM) Knowledge Areas, tools and techniques, and the necessary considerations when initiating and planning complex projects. Introduce tools, methods and critical issues associated with the initiation and planning of a project management plan. Students will function in teams and will be challenged with preparing and planning projects with real-world relevance. Registration Restrictions: PM Department approval and graduate level standing.
Explore in depth Project Management (PM) Knowledge Areas, tools and techniques, and the necessary considerations when initiating and planning complex projects. Introduce tools, methods and critical issues associated with the initiation and planning of a project management plan. Students will function in teams and will be challenged with preparing and planning projects with real-world relevance. Registration Restrictions: PM Department approval and graduate level standing.
Explore in depth Project Management (PM) Knowledge Areas, tools and techniques, and the necessary considerations when initiating and planning complex projects. Introduce tools, methods and critical issues associated with the initiation and planning of a project management plan. Students will function in teams and will be challenged with preparing and planning projects with real-world relevance. Registration Restrictions: PM Department approval and graduate level standing.
Explore in depth Project Management (PM) Knowledge Areas, tools and techniques, and the necessary considerations when in the executing, monitoring and controlling phases of basic and complex projects. Introduce tools, methods and critical issues associated with the execution, monitoring and controlling of a project management plan. Students will function as teams and will be challenged with monitoring and controlling projects with real world relevance. Registration Restrictions: PM Department approval and graduate level standing.
Explore in depth Project Management (PM) Knowledge Areas, tools and techniques, and the necessary considerations when in the executing, monitoring and controlling phases of basic and complex projects. Introduce tools, methods and critical issues associated with the execution, monitoring and controlling of a project management plan. Students will function as teams and will be challenged with monitoring and controlling projects with real world relevance. Registration Restrictions: PM Department approval and graduate level standing.
Explore in depth Project Management (PM) Knowledge Areas, tools and techniques, and the necessary considerations when in the executing, monitoring and controlling phases of basic and complex projects. Introduce tools, methods and critical issues associated with the execution, monitoring and controlling of a project management plan. Students will function as teams and will be challenged with monitoring and controlling projects with real world relevance. Registration Restrictions: PM Department approval and graduate level standing.
Explore in depth Project Management (PM) Knowledge Areas, tools and techniques, and the necessary considerations for operational integration and closure processes of complex projects. Introduce tools, methods and critical issues associated with the operation integration and closure processes of completing a project management plan. Students will function in teams and will be challenged with re-prioritizations and re-assignments projects across various industries with real-world relevance. Registration Restrictions: PM Department approval and graduate level standing.
Explore in depth Project Management (PM) Knowledge Areas, tools and techniques, and the necessary considerations for operational integration and closure processes of complex projects. Introduce tools, methods and critical issues associated with the operation integration and closure processes of completing a project management plan. Students will function in teams and will be challenged with re-prioritizations and re-assignments projects across various industries with real-world relevance. Registration Restrictions: PM Department approval and graduate level standing.
Explore in depth Project Management (PM) Knowledge Areas, tools and techniques, and the necessary considerations for operational integration and closure processes of complex projects. Introduce tools, methods and critical issues associated with the operation integration and closure processes of completing a project management plan. Students will function in teams and will be challenged with re-prioritizations and re-assignments projects across various industries with real-world relevance. Registration Restrictions: PM Department approval and graduate level standing.
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Initiating, planning and research component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Demonstrates mastery of project management principles, processes, tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Executing, controlling and closing component of a sponsored, student-selected and faculty-approved capstone project undertaken to research and/or contribute new concepts, tools and capabilities to address relevant project management challenges. Course results will demonstrate mastery of project management principles, processes, and tools/techniques and cumulative knowledge gained from prior coursework as specifically applied to project initiating and planning processes. Registration Restrictions: Graduate level standing and PM Department approval
Exploration of advanced issues, unique areas and specialized topics related to project management. Special Note: May be repeated with a change in subtitle. Registration Restrictions: Admission to the MSPM program or ESPM Department approval.
Exploration of advanced issues, unique areas and specialized topics related to project management. Special Note: May be repeated with a change in subtitle. Registration Restrictions: Admission to the MSPM program or ESPM Department approval.
Exploration of advanced issues, unique areas and specialized topics related to project management. Special Note: May be repeated with a change in subtitle. Registration Restrictions: Admission to the MSPM program or ESPM Department approval.
This course will explore the orchestration of work in multiple project disciplines and the integration of logistics throughout the entire project and product lifecycle. Registration Restrictions: Graduate level standing and PM department approval. May be stacked with: PM A494E
This course will explore the orchestration of work in multiple project disciplines and the integration of logistics throughout the entire project and product lifecycle. Registration Restrictions: Graduate level standing and PM department approval. May be stacked with: PM A494E
This course will explore the orchestration of work in multiple project disciplines and the integration of logistics throughout the entire project and product lifecycle. Registration Restrictions: Graduate level standing and PM department approval. May be stacked with: PM A494E
Explore the techniques used to identify client requirements for proper definition of a project. This course will also describe tools and methods to conduct research projects in project management areas. Registration Restrictions: PM Department approval
Explore the techniques used to identify client requirements for proper definition of a project. This course will also describe tools and methods to conduct research projects in project management areas. Registration Restrictions: PM Department approval
Explore the techniques used to identify client requirements for proper definition of a project. This course will also describe tools and methods to conduct research projects in project management areas. Registration Restrictions: PM Department approval
This course will explore the application of the project management maturity model concept to the assessment and improvement of organizational project management performance. Registration Restrictions: PM department approval and graduate level standing.
This course will explore the application of the project management maturity model concept to the assessment and improvement of organizational project management performance. Registration Restrictions: PM department approval and graduate level standing.
This course will explore the application of the project management maturity model concept to the assessment and improvement of organizational project management performance. Registration Restrictions: PM department approval and graduate level standing.
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