User:ChristopherLu
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Christopher Lu
Born on May 1,1996 in the Evergreen Hospital at Bothell, WA, Christopher's parents always knew there was something special about their son. They decided to have their son start the piano at the age of 5. He has been playing ever since and has excelled at it, impressing piano judges and chicks alike. He was also special enough to attend the wonderful Duke University in Durham, NC where he has just finished surviving the first three weeks of college with the help of the Chick-Fil-A conveniently located under the Duke Clinic.#GOPEGRAM
Name Pronounciation
It sounds like Christopher Columbus without the Columbus but with the Lu. Lu sounds like Loooooooooooooooo or the British word for bathroom.
Current Courses
Fall Semester 2014:
- CHEM 201DL: Organic Chemistry
- EGR 103L: Computational Methods in Engineering
- MATH 111L: Laboratory Calculus I
- MUSIC 261: Theory and Practical Tonal Music I
- MUSIC 211-2: Chamber Music
Hobbies and Favs
Piano, Tennis, Football, Basketball, Soccer, Reading, NetFlix, LetMeWatchThis, League of Legends, FIFA, Super Smash Bros, Chilling, attempting to cook, gym, cello, music, making music, AudioTool, Youtube, Spotify, vending machines, computers, labs, watching movies, Harry Potter, SEAHAWKS, SEAHAWKS, SEAHAWKS, SOUNDERS, MARINERS, SEATTLE, and any other Seattle sports team/company/startup/celebrity.
Grand Challenges for Engineering Articles
Inside Paul Allen’s Plan to Reverse-Engineer the Human Brain, Greg Miller, Wired, Laste updated October 24th, 2013, accessed September 13th, 2014 (Grand Challenge)
MATLAB Demonstrations
I found most of the MATLAB demonstrations very interesting, but the one I found the coolest was probably the one about the Loma Prieta Earthquake. I just thought it was so cool that the culmination of simple variables defined with rather simple equations could culminate together and display the data of a natural event. What I found even cooler was that MATLAB could look at different aspects of the earthquake by simply deriving the information from the orignial data e.g. find the accleration, velocity, and displacement in 3-dimensiosns of a point during the earthquake.