1. Foundations of Technology Modeling and Prototypes
STEMCenter for Teaching & Learning™ Engineering byDesign™
12/01/2009
Foundations of Technology Modeling and Prototypes
TITLE SLIDE
Teacher Resource – Unit 2 Lesson 5
© 2013 International Technology and Engineering Educators Association
STEMCenter for Teaching and Learning™
Foundations of Technology
© International Technology Education Assoc

2. STEMCenter for Teaching & Learning™ Engineering byDesign™
12/01/2009
The BIG Idea
Big Idea:
At various intervals of the Engineering Design Process, conceptual, mathematical, and physical models are used to evaluate the design solution.
[Authors: Please include teacher notes appropriately.]
© 2013 International Technology and Engineering Educators Association
STEMCenter for Teaching and Learning™
Foundations of Technology
© International Technology Education Assoc

3. STEMCenter for Teaching & Learning™ Engineering byDesign™
12/01/2009
Why Do We Use Models?
Models are used throughout the Engineering Design Process to make observations and develop predictions.
Those observations and predictions are then evaluated and, if necessary, solution is redesigned.
Modeling allows an engineer/designer to test ideas against real-world conditions without incurring the cost of developing the product.
Models can be conceptual, mathematical, or physical.
[Authors: Please include teacher notes appropriately.]
© 2013 International Technology and Engineering Educators Association
STEMCenter for Teaching and Learning™
Foundations of Technology
© International Technology Education Assoc

4. STEMCenter for Teaching & Learning™ Engineering byDesign™
12/01/2009
Conceptual Models
Conceptual models are abstract models that use language and graphic-based representations to convey meaning.
They can include:
Technical Writing
Graphs and Charts
Annotated Sketches
Technical Drawings
[Authors: Please include teacher notes appropriately.]
© 2013 International Technology and Engineering Educators Association
STEMCenter for Teaching and Learning™
Foundations of Technology
© International Technology Education Assoc

5. Conceptual Models – Technical Writing
STEMCenter for Teaching & Learning™ Engineering byDesign™
12/01/2009
Conceptual Models – Technical Writing
Technical Writing is a very precise style of writing. Good technical writers practice:
Clarity – the accurate use of words. Avoid jargon, abbreviations, slang, and unknown terms.
Brevity – only essential language should be included. The key information should be stated first.
Simplicity – provide necessary details. Do not use flowery language or needlessly complex language.
Active Voice – use straightforward and strong language. Do not use a passive voice.
Example for Clarity – avoid terms found on the Internet / text chat
Example for Brevity – Despite a poor first half, the Ravens won the Superbowl vs. The Ravens won the Superbowl despite a poor first half.
© 2013 International Technology and Engineering Educators Association
STEMCenter for Teaching and Learning™
Foundations of Technology
© International Technology Education Assoc

6. Conceptual Models – Graphs and Charts
STEMCenter for Teaching & Learning™ Engineering byDesign™
12/01/2009
Conceptual Models – Graphs and Charts
Graphs and charts are commonly used to show a relationship between two or more variables and to highlight a trend(s) for the audience.
Graphs and charts are commonly used to show data and results from evaluations.
[Authors: Please include teacher notes appropriately.]
© International Technology Education Assoc

7. Conceptual Models – Graphs and Charts
STEMCenter for Teaching & Learning™ Engineering byDesign™
12/01/2009
Conceptual Models – Graphs and Charts
Graphs and charts commonly appear in the form of:
Line Graph
Bar Graph
Pie Chart
Venn Diagram
Data 1
Data 2
[Authors: Please include teacher notes appropriately.]
© 2013 International Technology and Engineering Educators Association
STEMCenter for Teaching and Learning™
Foundations of Technology
© International Technology Education Assoc

8. STEMCenter for Teaching & Learning™ Engineering byDesign™
12/01/2009
Mathematical Models
Mathematical models are abstract models that use the language of mathematics to describe the behavior of the solution.
They can include:
Statistical models
Differential equations
Game theoretic models (computer simulation)
[Authors: Please include teacher notes appropriately.]
© 2013 International Technology and Engineering Educators Association
STEMCenter for Teaching and Learning™
Foundations of Technology
© International Technology Education Assoc

9. Creating a Mathematical Model
STEMCenter for Teaching & Learning™ Engineering byDesign™
12/01/2009
Creating a Mathematical Model
Prior to developing a mathematical model you must first determine:
The output or what you would like the model to achieve.
The available data or what information can be used in the model.
What research has been done to develop similar models.
Identify relationships among variables.
Create/use an equation that relates those
variables.
Check the model for accuracy against similar systems or products.
[Authors: Please include teacher notes appropriately.]
© 2013 International Technology and Engineering Educators Association
STEMCenter for Teaching and Learning™
Foundations of Technology
© International Technology Education Assoc

10. STEMCenter for Teaching & Learning™ Engineering byDesign™
12/01/2009
Physical Models
Physical models are three-dimensional models that represent the solution.
They can include:
Mock-Up – a representation of the final solution that does not function.
Prototype – performs the final solution and can be used for testing/evaluation.
[Authors: Please include teacher notes appropriately.]
© 2013 International Technology and Engineering Educators Association
STEMCenter for Teaching and Learning™
Foundations of Technology
© International Technology Education Assoc

11. Physical Models – Mock-Up
STEMCenter for Teaching & Learning™ Engineering byDesign™
12/01/2009
Physical Models – Mock-Up
A mock-up is a scale or full-size model primarily used for testing or demonstration.
Mock-Ups are primarily used by engineers/designers to collect feedback from potential users.
[Authors: Please include teacher notes appropriately.]
© 2013 International Technology and Engineering Educators Association
STEMCenter for Teaching and Learning™
Foundations of Technology
© International Technology Education Assoc

12. Physical Models - Prototype
STEMCenter for Teaching & Learning™ Engineering byDesign™
12/01/2009
Physical Models - Prototype
A prototype is a scale or full-size working or partially working model.
Prototypes are primarily used by engineers/designers to test and evaluate the design to further develop the product.
[Authors: Please include teacher notes appropriately.]
© 2013 International Technology and Engineering Educators Association
STEMCenter for Teaching and Learning™
Foundations of Technology
© International Technology Education Assoc