Difference between revisions of "User:Jal67"
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[http://eetimes.com/design/programmable-logic/4183194/Reverse-engineering-the-brain-for-better-computers Reverse-engineering the brain for better computers], Clive Maxfield, EE Times, updated 18 September 2007, accessed 8 September 2012 (Grand Challenge) | [http://eetimes.com/design/programmable-logic/4183194/Reverse-engineering-the-brain-for-better-computers Reverse-engineering the brain for better computers], Clive Maxfield, EE Times, updated 18 September 2007, accessed 8 September 2012 (Grand Challenge) | ||
==MATLAB== | ==MATLAB== | ||
| + | My favorite demonstration in MATLAB was the Bending Truss animation. I found it interesting how MATLAB could simulate the different stresses that would be applied to the bridge. The simulation was able to model a wide variety of stresses that could potentially cause the bridge to collapse. The bridge simulation provided many possibilities for a structural analysis. I would also like to know if the simulation could be modified in such a way to model the maximum amount of stress the bridge could withstand before it failed. I would also like to see if MATLAB could create a data set of the amount of force experienced by the bridge and then put that data into a graph based on the twelve different modes of bending. | ||
Latest revision as of 02:14, 9 September 2012
About Me
My name is Jeremy Lee and I am a member of the Duke class of 2016. I hope to major in mechanical engineering. I enjoy playing basketball and I am a huge fan of both college basketball and the NBA.
Articles of Interest
Reverse-engineering the brain for better computers, Clive Maxfield, EE Times, updated 18 September 2007, accessed 8 September 2012 (Grand Challenge)
MATLAB
My favorite demonstration in MATLAB was the Bending Truss animation. I found it interesting how MATLAB could simulate the different stresses that would be applied to the bridge. The simulation was able to model a wide variety of stresses that could potentially cause the bridge to collapse. The bridge simulation provided many possibilities for a structural analysis. I would also like to know if the simulation could be modified in such a way to model the maximum amount of stress the bridge could withstand before it failed. I would also like to see if MATLAB could create a data set of the amount of force experienced by the bridge and then put that data into a graph based on the twelve different modes of bending.
