Difference between revisions of "User:Surn"
Line 13: | Line 13: | ||
− | ===With Stress Marks and No Explanation=== | + | === With Stress Marks and No Explanation === |
'''Ni'klas Ale'xander Ga'hm''' | '''Ni'klas Ale'xander Ga'hm''' | ||
Honestly, I have gotten used to people butchering my name spelling and pronunciation wise, to the point that I go by anything ranging from Salkin, to Nicola (like Ricola) | Honestly, I have gotten used to people butchering my name spelling and pronunciation wise, to the point that I go by anything ranging from Salkin, to Nicola (like Ricola) | ||
+ | |||
+ | |||
== Music == | == Music == | ||
Okay I will share one thing. The equivalent of magically appearing music, that you never knew you had that suddenly pops in your playlist and makes your day, I do quit adore that. | Okay I will share one thing. The equivalent of magically appearing music, that you never knew you had that suddenly pops in your playlist and makes your day, I do quit adore that. | ||
+ | |||
Line 26: | Line 29: | ||
[http://www.springerlink.com/content/728350g4m8r8m82q/], Badrinath Roysam, William Shane, and Giorgio A. Ascoli, SpringerLink, 13th January 2009, 22nd September 2011 (Reverse Engineering the Brain) | [http://www.springerlink.com/content/728350g4m8r8m82q/], Badrinath Roysam, William Shane, and Giorgio A. Ascoli, SpringerLink, 13th January 2009, 22nd September 2011 (Reverse Engineering the Brain) | ||
+ | |||
+ | |||
+ | |||
+ | == Favorite Matlab Demo == | ||
+ | |||
+ | Hmmmmmmm...... very hard choice....... | ||
+ | |||
+ | === >> life === | ||
+ | |||
+ | Life: Conway's Game of Life is inarguably the single greatest function in Matlab, only rivaled by >> why | ||
+ | |||
+ | Sadly >> life does not have a demo associated with it, so I must choose another. | ||
+ | |||
+ | |||
+ | === Plotting Surfaces === | ||
+ | |||
+ | I am in PHY 62 which assumes everyone has taken Math 103 and EGR 53 prior to entry into that course, both of which I am inconveniently taking this semester. So as Tim is well aware on PHY 62 Lab1 E-Field Mapping, we were asked to collect a 10x10 matrix of data containing 100 evenly spaced voltage measurements, which then could be used with surf or countour (which I ultimately used) to form equipotential lines. This first graph was then overlayed with a second showing a vector field describing the E-Field. So with Tim's help and the Plotting Surfaces page, I finally was able to make a halfway decent looking graph. :) |
Revision as of 02:55, 23 September 2011
Hmmm simply put, there is very little that I feel should go up on the web, so Hello Tim, hope this suffices to show that I have completed the tasks.
Contents
Name Pronunciation
Niklas Alexander Gahm
Niklas - Easiest way to pronounce it is as Nick (American accent) + las (Scottish accent). It is the Germanized form of Tzar Nicholas I or Russia[1].
Alexander - Essentially Alex-san-der This bit is after the well known Alexander the Great of Macedonia[2]
Gahm - Gah like Kaw + m My family name, so no one really knows where it originated from, it has just existed for as long as anyone in my family can remember.
With Stress Marks and No Explanation
Ni'klas Ale'xander Ga'hm
Honestly, I have gotten used to people butchering my name spelling and pronunciation wise, to the point that I go by anything ranging from Salkin, to Nicola (like Ricola)
Music
Okay I will share one thing. The equivalent of magically appearing music, that you never knew you had that suddenly pops in your playlist and makes your day, I do quit adore that.
Grand Challenge Assignment
[3], Badrinath Roysam, William Shane, and Giorgio A. Ascoli, SpringerLink, 13th January 2009, 22nd September 2011 (Reverse Engineering the Brain)
Favorite Matlab Demo
Hmmmmmmm...... very hard choice.......
>> life
Life: Conway's Game of Life is inarguably the single greatest function in Matlab, only rivaled by >> why
Sadly >> life does not have a demo associated with it, so I must choose another.
Plotting Surfaces
I am in PHY 62 which assumes everyone has taken Math 103 and EGR 53 prior to entry into that course, both of which I am inconveniently taking this semester. So as Tim is well aware on PHY 62 Lab1 E-Field Mapping, we were asked to collect a 10x10 matrix of data containing 100 evenly spaced voltage measurements, which then could be used with surf or countour (which I ultimately used) to form equipotential lines. This first graph was then overlayed with a second showing a vector field describing the E-Field. So with Tim's help and the Plotting Surfaces page, I finally was able to make a halfway decent looking graph. :)