Difference between revisions of "CS382:Structural-outline"

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(Lab activity)
(Background reading)
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http://www.lessonplanspage.com/ScienceSSOKNEXBridges-Architecture510.htm - The lesson plan that involves K'nex, if we want to go ahead with that.
 
http://www.lessonplanspage.com/ScienceSSOKNEXBridges-Architecture510.htm - The lesson plan that involves K'nex, if we want to go ahead with that.
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http://www.apeg.bc.ca/services/branches/documents/pr/Bridge_Engineering_Principles.pdf - Goes over some of the basic principles of bridge-building.
  
 
=Lecture notes=
 
=Lecture notes=

Revision as of 19:06, 16 February 2009

Background reading

Note: Provide pointer to reading and some notes about it.

http://pghbridges.com/basics.htm This is a page containing a number of basic types of bridges, and some information about their origin, and/or how they function.

http://www.in.gov/indot/files/bridge_chapter_01.pdf - "Bridge building for dummies." Provides an explanation of the duties of Bridge Technicians and defines a number of terms associated with bridge constructions, as well as explaining some of the more common failure points and why they're failure points.

http://en.wikipedia.org/wiki/Rigid_body_dynamics

http://www.lessonplanspage.com/ScienceSSOKNEXBridges-Architecture510.htm - The lesson plan that involves K'nex, if we want to go ahead with that.

http://www.apeg.bc.ca/services/branches/documents/pr/Bridge_Engineering_Principles.pdf - Goes over some of the basic principles of bridge-building.

Lecture notes

Note: Write in Outline Form

Note: The idea behind this unit is a 2-week unit exploring how it is possible to model structures such as bridges using 3D Modeling tools. We will try to teach the students how the physical properties of structures in the real world can be represented inside computational systems. Because our current software is biased towards the modeling and simulation of Bridges, this is what the unit will be based on modeling. However, we are interested in maybe expanding the scope of this unit into a basic overview of rigid body dynamics.


Lecture 1:

The first part of this lecture will be to explain the various types of bridges introduced in http://pghbridges.com/basics.htm . It should include an explanation of the various bridge types with an overview of how they function, as well as a brief history of each. (This is provided by the reading.)

Lecture 2:

Lecture 3:


Lecture 4:

Classroom response questions

Note: Include at least 3

Lab activity

Note: Include Process, Software, and Materials.

Simulations

1. Bridge Builder

Bridge Builder

Simple, effective, fun bridge building/simulation game. Illustrates structural stress with colors. Might be too simplistic, because it only simulates in 2 Dimensions. Additionally, the software appears to be non-free, and although there is a free 'demo' download for mac/windows. The demo appears fully functional, however the Bridge Builder website advertises a 3-D version with a paid licence.

The program is organized into 'Levels' ranging in difficulty from 'Level 1' and 'Level 15.' This could translate to a convient lab format, where we can assign a certain number of levels. There are some good videos on youTube that demonstrate the increased challenge of each subsequent level. youTube:Level 6 - 14 in Bridge Builder

2. Bridge Construction Set

3. Open Dynamics Engine

An open source physics engine used in many applications. This came from a search on physics engines, which seem to be heavily related to modeling bridges and other structures. There might be some pedagogically useful aspects of this software, however delving to deep into the intracacies of linear algebra and vector multiplication might seriously confuse and frustrate many of the non-math people. Note that it may be possible to implement some pre-built objects / functions to make the software more accessible to newbies.

Physical Models

1. K'nex would make an effective physical analogue to the computer simulation methods described above. It might make sense to instruct the students to build 2-dimensional K'nex models, in an effort to both simplify the process, and make the physical model the same as the bridge builder model. The strength of these K'nex constructions could be tested simply by hanging weights off of them at various points.