Difference between revisions of "User:Lucy Zhang"

From PrattWiki
Jump to navigation Jump to search
Line 2: Line 2:
 
==About Me==
 
==About Me==
 
I am an avid anime fan who writes for the satire site [http://www.animemaru.com/author/dango_ramen/ Anime Maru]
 
I am an avid anime fan who writes for the satire site [http://www.animemaru.com/author/dango_ramen/ Anime Maru]
[[File:Kara-no-kyoukai.jpg|thumb|right|alt=Kara no Kyoukai.|Kara no Kyoukai.]]
+
[[File:Kara-no-kyoukai.jpg|right|400 px|alt=Kara no Kyoukai.|Kara no Kyoukai.]]
 
== [[Grand Challenges for Engineering]] Articles ==
 
== [[Grand Challenges for Engineering]] Articles ==
 
*[http://phys.org/news/2015-08-surgeons-remote-telementoring.html  Surgeons may get remote assistance with new 'telementoring' system], Emil Venere, http://phys.org/, updated 15 August 2015, accessed 25 August 2015 (Enhance Virtual Reality)
 
*[http://phys.org/news/2015-08-surgeons-remote-telementoring.html  Surgeons may get remote assistance with new 'telementoring' system], Emil Venere, http://phys.org/, updated 15 August 2015, accessed 25 August 2015 (Enhance Virtual Reality)

Revision as of 17:39, 29 August 2015

Tokyo Ghoul.

About Me

I am an avid anime fan who writes for the satire site Anime Maru

Kara no Kyoukai.

Grand Challenges for Engineering Articles


Favorite MATLAB demo

My favorite MATLAB demonstration was the 2D Plots graphics demonstration. The information it taught was quite practical and straightforward, but critical to future uses of MATLAB. Simply knowing how to establish the x-values and y-values of a graph and labeling both axes already makes MATLAB extremely useful. The demonstration also explains specific graph types such as a bar plot of a bell shaped curve or a stairstep plot of a sine wave in greater detail, another critical bit of information that I will likely need to reference in the future. There is no excess of explanation, instead leaving the example code and result for the reader (me) to interpret. Considering how straightforward the code was, this was an optimal method of information demonstration.

It was also nice to see the code for 2d graphs utilize principles that I already learned, such as the start:step:end. In fact, drawing (or more accurately, coding) 2D graphs in MATLAB is so similar to what I'd normally type in a graphing calculator that it doesn't quite feel like a programming language like java or python (although, granted, in many other aspects they are very similar).