Difference between revisions of "User:Ss566"
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== About Me: == | == About Me: == | ||
− | I am from Belle Mead, New Jersey (a town very | + | I am from Belle Mead, New Jersey (a town very close to Princeton) and am hoping to major in Biomedical Engineering as well as Economics at Duke University. |
== My Interests: == | == My Interests: == | ||
Music, basketball | Music, basketball | ||
+ | |||
+ | == Grand Challenges for Engineering Article: == | ||
+ | [http://www.ldeo.columbia.edu/gpg/projects/carbon-sequestration], Peter B. Kelemen, Lamont-Doherty Earth Observatory of Columbia University, accessed 15 September 2013. | ||
+ | |||
+ | == MatLab Demonstration: == | ||
+ | My favorite demonstration was the "Viewing a Penny" one, which showcased techniques to visualize the structure of a penny. Basically, a 3-D copper colored surface plot was produced using the Laplacian lighting model, and this one particularly appealed to me because my professor showed a similar technique in my Math 212 (Multivariable) class. He demonstrated how a black and white picture can be created in a 3-D graph by assigning the value of the z-coordinate to a specific brightness, and as a result each point would be a different shade. |
Latest revision as of 03:25, 16 September 2013
Contents
About Me:
I am from Belle Mead, New Jersey (a town very close to Princeton) and am hoping to major in Biomedical Engineering as well as Economics at Duke University.
My Interests:
Music, basketball
Grand Challenges for Engineering Article:
[1], Peter B. Kelemen, Lamont-Doherty Earth Observatory of Columbia University, accessed 15 September 2013.
MatLab Demonstration:
My favorite demonstration was the "Viewing a Penny" one, which showcased techniques to visualize the structure of a penny. Basically, a 3-D copper colored surface plot was produced using the Laplacian lighting model, and this one particularly appealed to me because my professor showed a similar technique in my Math 212 (Multivariable) class. He demonstrated how a black and white picture can be created in a 3-D graph by assigning the value of the z-coordinate to a specific brightness, and as a result each point would be a different shade.