Learning Objectives & Matches
Construct partial differential equation models for physical systems
Design computer simulations to model physical data so that it can be better understood.
Formulate mathematical or simulation models of problems, relating constants and variables, restrictions, alternatives, conflicting objectives, and their numerical parameters.
Perform complex, dynamic, and integrated mathematical modeling of ecological, environmental, or economic systems.
Break systems into their components, assign numerical values to each component, and examine the mathematical relationships between them.
Develop computer models of chemical processes.
Design, conduct, and evaluate experimental operational models in cases where models cannot be developed from existing data.
Develop computer models to address transportation planning issues.
Produce three-dimensional models, using computer-aided design (CAD) software.
Create Web models or prototypes that include physical, interface, logical, or data models.
Create Web models or prototypes that include physical, interface, logical, or data models.
Contextualize partial differential equation models of physical systems
Design computer simulations to model physical data so that it can be better understood.
Perform complex, dynamic, and integrated mathematical modeling of ecological, environmental, or economic systems.
Formulate mathematical or simulation models of problems, relating constants and variables, restrictions, alternatives, conflicting objectives, and their numerical parameters.
Develop computer models of chemical processes.
Break systems into their components, assign numerical values to each component, and examine the mathematical relationships between them.
Create complex and dynamic mathematical models of population, community, or ecological systems.
Specify manipulative or computational methods to be applied to models.
Create models or scenarios to predict the impact of changing circumstances, such as fuel costs, road pricing, energy taxes, or carbon emissions legislation.
Design, conduct, and evaluate experimental operational models in cases where models cannot be developed from existing data.
Devise or apply independent models or tools to help verify results of analytical systems.
Apply classical solution techniques to differential equation models of physical systems
Propose solutions in engineering, the sciences, and other fields using mathematical theories and techniques.
Formulate mathematical or simulation models of problems, relating constants and variables, restrictions, alternatives, conflicting objectives, and their numerical parameters.
Apply mathematical theories and techniques to the solution of practical problems in business, engineering, the sciences, or other fields.
Perform complex, dynamic, and integrated mathematical modeling of ecological, environmental, or economic systems.
Remove objects from solutions at periodic intervals and observe objects to verify conformance to specifications.
Design computer simulations to model physical data so that it can be better understood.
Devise or apply independent models or tools to help verify results of analytical systems.
Specify manipulative or computational methods to be applied to models.
Break systems into their components, assign numerical values to each component, and examine the mathematical relationships between them.
Develop computer models of chemical processes.
Explain the role of different boundary equations
Formulate mathematical or simulation models of problems, relating constants and variables, restrictions, alternatives, conflicting objectives, and their numerical parameters.
Visualize models graphically
Create graphs, charts, or other visualizations to convey the results of data analysis using specialized software.
Prepare graphs, charts, diagrams, or other aids to illustrate observations or conclusions.
Lay out and draw schematic, orthographic, or angle views to depict functional relationships of components, assemblies, systems, and machines.
Create visual representations of geospatial data, using complex procedures such as analytical modeling, three-dimensional renderings, or plot creation.
Coordinate structural, electrical, and mechanical designs and determine a method of presentation to graphically represent building plans.
Prepare charts, graphs, or other visual displays to communicate clients' performance information.
Draw maps, diagrams, and profiles, using cross-sections and surveys, to represent elevations, topographical contours, subsurface formations, and structures.
Design and implement dashboard and data visualizations to meet customer reporting needs.
Draw and print charts, graphs, illustrations, and other artwork, using computer.
Analyze, interpret, or create graphical representations of energy data, using engineering software.