Difference between revisions of "User:Adi"
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− | Hi! I'm Raghunathan Adithya. You can call me Adi. My NET ID is ra102. I plan to major in Electrical & Computer Engineering (ECE). | + | |
+ | == About Myself == | ||
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+ | Hi! I'm Raghunathan Adithya. You can call me Adi. My NET ID is ra102. I'm from Singapore, a sunny topical island in South-East Asia. I plan to major in Electrical & Computer Engineering (ECE). My hobbies are reading, running and writing. | ||
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+ | == Grand Challenges == | ||
+ | [http://www.pnas.org/content/103/43/15729.short Powering the planet: Chemical challenges in solar energy utilization], Nathan S.Lewis & Daniel G.Nocera, National Academy of Sciences of the United States of America, updated 11 August 2006, accessed 13 September 2014 (Making Solar Energy Economical) | ||
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+ | == MATLAB Demonstrations == | ||
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+ | While I found all the demonstrations insightful and entertaining, my favorite was "Conway's Game of Life". As it produced a dynamic movie instead of a static picture, it was visually appealing and told a powerful story. It also demonstrated how MATLAB code could mathematically model complex real world phenomena such as the proliferation of bacteria or growth of populations across space. |
Latest revision as of 17:31, 14 September 2014
About Myself
Hi! I'm Raghunathan Adithya. You can call me Adi. My NET ID is ra102. I'm from Singapore, a sunny topical island in South-East Asia. I plan to major in Electrical & Computer Engineering (ECE). My hobbies are reading, running and writing.
Grand Challenges
Powering the planet: Chemical challenges in solar energy utilization, Nathan S.Lewis & Daniel G.Nocera, National Academy of Sciences of the United States of America, updated 11 August 2006, accessed 13 September 2014 (Making Solar Energy Economical)
MATLAB Demonstrations
While I found all the demonstrations insightful and entertaining, my favorite was "Conway's Game of Life". As it produced a dynamic movie instead of a static picture, it was visually appealing and told a powerful story. It also demonstrated how MATLAB code could mathematically model complex real world phenomena such as the proliferation of bacteria or growth of populations across space.