Difference between revisions of "User:Kendall.liang"
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| − | == | + | == Homework 1 == |
| − | === Articles === | + | === Grand Challenges for Engineering Articles === |
| − | [ http://www.dukechronicle.com/article/2015/10/girls-engineering-change-organizers-place-third-at-global-grand-challenges-summit Girls Engineering Change organizers place third at Global Grand Challenges Summit], Ian Jaffe, Duke Student Publishing Company, | + | [http://www.dukechronicle.com/article/2015/10/girls-engineering-change-organizers-place-third-at-global-grand-challenges-summit Girls Engineering Change organizers place third at Global Grand Challenges Summit], Ian Jaffe, Duke Student Publishing Company, published 13 October 2015, accessed 1 February 2016 (General) |
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| + | [http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3785732/ Reverse engineering the brain], Gert Cauwenberghs, National Center for Biotechnology Information, published 12 September 2013, accessed 1 February 2016 (Reverse-Engineer the Brain) | ||
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| + | == Homework 2 == | ||
| + | === MATLAB Demonstrations === | ||
| + | My favorite demonstrations were those that involved differential equations. I like calculus and they ways in which it relates to physics, so I think differential equations are interesting. I liked being able to run examples relating to partial differential equations especially, since I took multivariable calculus last semester and am still curious about that course. I think it is impressive how much faster MATLAB can deal with differential equations than what is manually possible. | ||
Latest revision as of 05:38, 2 February 2016
Contents
Homework 1
Grand Challenges for Engineering Articles
Girls Engineering Change organizers place third at Global Grand Challenges Summit, Ian Jaffe, Duke Student Publishing Company, published 13 October 2015, accessed 1 February 2016 (General)
Reverse engineering the brain, Gert Cauwenberghs, National Center for Biotechnology Information, published 12 September 2013, accessed 1 February 2016 (Reverse-Engineer the Brain)
Homework 2
MATLAB Demonstrations
My favorite demonstrations were those that involved differential equations. I like calculus and they ways in which it relates to physics, so I think differential equations are interesting. I liked being able to run examples relating to partial differential equations especially, since I took multivariable calculus last semester and am still curious about that course. I think it is impressive how much faster MATLAB can deal with differential equations than what is manually possible.
