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.
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.
CRN: 52823 Section: 301 Date Range: 05/20-06/24 Section Title: Simulation/Modeling in NetLogo
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.
An introduction to object-oriented programming techniques and problem solving. This includes basic syntax; sequential, branching, and looping execution; as well as concepts such as inheritance, encapsulation, and polymorphism. Registration Restrictions: Meet prerequisites or placement into MATH A200 or MATH A272.
An introduction to object-oriented programming techniques and problem solving. This includes basic syntax; sequential, branching, and looping execution; as well as concepts such as inheritance, encapsulation, and polymorphism. Registration Restrictions: Meet prerequisites or placement into MATH A200 or MATH A272.
An introduction to object-oriented programming techniques and problem solving. This includes basic syntax; sequential, branching, and looping execution; as well as concepts such as inheritance, encapsulation, and polymorphism. Registration Restrictions: Meet prerequisites or placement into MATH A200 or MATH A272.
Application of computing skills in a professional work setting. Special Note: This course is open to qualified students with faculty approval, and as placements are available. Special Note: May be taken up to three times, but only 3 credits may be applied towards CS major requirements. Registration Restrictions: Faculty approval.
Application of computing skills in a professional work setting. Special Note: This course is open to qualified students with faculty approval, and as placements are available. Special Note: May be taken up to three times, but only 3 credits may be applied towards CS major requirements. Registration Restrictions: Faculty approval.
Application of software development concepts, principles, and practices to a comprehensive, realistic system. The student will analyze, design, document, implement, and deliver a presentation and written report of a software system of moderate complexity under the supervision of the instructor. Registration Restrictions: Senior standing, and completion of GER Tier 1 (basic college-level skills) courses.
Application of software development concepts, principles, and practices to a comprehensive, realistic system. The student will analyze, design, document, implement, and deliver a presentation and written report of a software system of moderate complexity under the supervision of the instructor. Registration Restrictions: Senior standing, and completion of GER Tier 1 (basic college-level skills) courses.
Independent research projects under the supervision of a faculty member. The result will be a paper or presentation prepared to publication standards. Special Note: May be repeated up to a maximum of six credits. Registration Restrictions: Upper division standing and faculty permission.
Independent research projects under the supervision of a faculty member. The result will be a paper or presentation prepared to publication standards. Special Note: May be repeated up to a maximum of six credits. Registration Restrictions: Upper division standing and faculty permission.
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. 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.
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.
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.
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.
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.
Current issues and topics related to project management including, but not limited to: Project Management Professional Certification preparation, Microsoft Project Software Training, Successful Project Management, Senior Project Management, Technical Project Management, and Managing Project Managers.
Current issues and topics related to project management including, but not limited to: Project Management Professional Certification preparation, Microsoft Project Software Training, Successful Project Management, Senior Project Management, Technical Project Management, and Managing Project Managers.
Current issues and topics related to project management including, but not limited to: Project Management Professional Certification preparation, Microsoft Project Software Training, Successful Project Management, Senior Project Management, Technical Project Management, and Managing Project Managers.
CRN: 53632 Section: 302 Date Range: 06/18-06/19 Section Title: Intro to PM for D.O.G.
Current issues and topics related to project management including, but not limited to: Project Management Professional Certification preparation, Microsoft Project Software Training, Successful Project Management, Senior Project Management, Technical Project Management, and Managing Project Managers.
CRN: 53632 Section: 302 Date Range: 06/18-06/19 Section Title: Intro to PM for D.O.G.
Current issues and topics related to project management including, but not limited to: Project Management Professional Certification preparation, Microsoft Project Software Training, Successful Project Management, Senior Project Management, Technical Project Management, and Managing Project Managers.
Current issues and topics related to project management including, but not limited to: Project Management Professional Certification preparation, Microsoft Project Software Training, Successful Project Management, Senior Project Management, Technical Project Management, and Managing Project Managers.
Current issues and topics related to project management including, but not limited to: Project Management Professional Certification preparation, Microsoft Project Software Training, Successful Project Management, Senior Project Management, Technical Project Management, and Managing Project Managers.
Current issues and topics related to project management including, but not limited to: Project Management Professional Certification preparation, Microsoft Project Software Training, Successful Project Management, Senior Project Management, Technical Project Management, and Managing Project Managers.
Examines methods and processes of planning for, identifying, assessing, monitoring, and responding to project risk. Qualitative and quantitative risk analysis procedures, including decision free analysis, risk simulation, risk ranking, and risk responding techniques. Registration Restrictions: Graduate level standing.
Examines methods and processes of planning for, identifying, assessing, monitoring, and responding to project risk. Qualitative and quantitative risk analysis procedures, including decision free analysis, risk simulation, risk ranking, and risk responding techniques. Registration Restrictions: Graduate level standing.
Examines methods and processes of planning for, identifying, assessing, monitoring, and responding to project risk. Qualitative and quantitative risk analysis procedures, including decision free analysis, risk simulation, risk ranking, and risk responding techniques. Registration Restrictions: Graduate level standing.
Advanced application of project management principles and processes used in the strategic selection, planning and management of construction and development projects from concept through operation. Identification, selection and application of field engineering systems and procedures to effectively meet construction project objectives. Registration Restrictions: Graduate level standing and PM Department approval.
Advanced application of project management principles and processes used in the strategic selection, planning and management of construction and development projects from concept through operation. Identification, selection and application of field engineering systems and procedures to effectively meet construction project objectives. Registration Restrictions: Graduate level standing and PM Department approval.
Advanced application of project management principles and processes used in the strategic selection, planning and management of construction and development projects from concept through operation. Identification, selection and application of field engineering systems and procedures to effectively meet construction project objectives. Registration Restrictions: Graduate level standing and PM Department approval.
Advanced knowledge in the areas of project controls, creating project baselines, project performance measurement, and earned value management. Registration Restrictions: Graduate standing.
Advanced knowledge in the areas of project controls, creating project baselines, project performance measurement, and earned value management. Registration Restrictions: Graduate standing.
Provide Website Feedback
