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Student Learning Outcomes

Discipline: Technology & Health: Industrial Design Engineering
Course Name Course Number
Advanced CAD IDE 220
  • Student will be able to apply CAD surface modeling techniques to develop mold designs and prototypes .
  • Create a useful CAD model from one or more scanned sketches.
Advanced Media IDE 210
  • Students will be able to create a unified, visually compelling portfolio of their work
  • Students will be able to graphically represent a product concept
Design Foundation - Visual Literacy IDE 110
  • Students will be able to sketch simple three dimensional forms in correct one and two-point perspective
  • Students will be able to construct a simple sketch model in foam core or similar appropriate material, using form development principles.
Design Foundation II IDE 150
  • Students will be able to use appropriate typography and color theory principles and tools effectively
  • Student will be able to develop and construct a sketch model to meet specific criteria at a specific dimensional scale
  • Students will be able to organize various elements in a useful and visually appealing way using the Gestalt principles of design
Engineering Design Technology Work Experience EDT 89
  • Students will demonstrate competency using skills developed in the IDE, EDT or MFG programs by developing and completing a project according to industry partner and\/ or faculty advisor
Intermediate CAD IDE 160
  • Students will be able to create 3D models and the necessary views for production.
  • Students will be able to develop drawings using parametric solid modeling technology.\n
Introduction to CAD IDE 120
  • Students will be able to create CAD drawings and 3D models using given specifications.
  • Create an efficient sketch using correct origin placement, geometric relations, and symmetry.
  • Select correct primary view and create a fully dimensioned print according to drafting standards and best practices.
Introduction to Mechanical Principles IDE 230
  • 70% of students will be able to integrate existing components and devices into mechanical design solutions with 70% success
  • 70% of students will be able to design CAD based mechanical devices that demonstrate a common mechanical principle with 70% success.
Introduction to Prototyping IDE 170
  • Students will be able to construct prototype models using common prototyping methods and technologies.
  • Students will be able to generate a tool path sufficient to cut out a part profile using a CNC router
Introduction to Shop Processes IDE 130
  • 70% of students will pass all safety tests with 90% or greater
  • Students will accurately produce specified 3D physical prototype objects using hand and power tools.
  • Students will translate CAD plans into hand-built physical parts.
Manufacturing Processes and Materials IDE 270
  • 70% of students will be able to analyze and correctly explain the advantages and limitations of various manufacturing processes and materials 70% of the time
  • 70% of students will create a comprehensive portfolio of professional quality
Product Design and Viability IDE 250
  • 70% of students will produce engineering prints and bill of materials (BOM) for a proposed part or product with 70% or greater accuracy
  • 70% of students will be able to effectively fabricate industry-representative prototypes using most appropriate processes and materials with 70% or greater accuracy
  • 70% of students will be able to source the most appropriate and cost-effective purchased part to address a particular design goal with 70% or greater accuracy