Difference between revisions of "User:Dojo"
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− | My name is '''Dojo''' and I currently am 13, and live in Washington. | + | My name is '''Dojo''' and I currently am 13, and live in Washington. My spelling needs a lot of work. |
My interests are math, technology, solving rubiks cubes, cello, piano, composing, track, cross country and tennis, just to name a few. | My interests are math, technology, solving rubiks cubes, cello, piano, composing, track, cross country and tennis, just to name a few. |
Revision as of 23:56, 6 November 2009
My name is Dojo and I currently am 13, and live in Washington. My spelling needs a lot of work.
My interests are math, technology, solving rubiks cubes, cello, piano, composing, track, cross country and tennis, just to name a few.
Contents
[hide]The Spinning Sphere
Yes yes,[big voice] I am the creator of the almighty spinning sphere!!! [/end big voice] Yeah well anyway, for anyone interested, I have created a gallery of these spheres: My Gallery (My gallery is now the Animation Studio)
Trivial Math Proofs
Suggest your trival proofs you want here.
Equilateral Triangle Area
Proof that the area of an equilateral triangle with side length is :
Let's say that there is an equilateral triangle that has a side length of . We can then draw the following figure:
Now let's figure out the altitude so we can complete the triangle area forumla of :
We can now use the pythagorean theorem to find the length of the altitude:
Since we know that this is a triangle, we can use proportions to find the altitude in terms of side lenth :
$
Now plugging this altitude into the triangle area forumla gives us:
Proof can be found on this post of my blog.
Diagonal Forumla
Proof that the number of diagonals in a polygon with sides is :
First, lets see the hexagon:
If you count carefully, you'll see that there are 9 diagonals.
Now we need to see how we can derive a forumla for the number of diagonals.
For any polygon with sides, we see that there are vertecies. To create a diagonal, we need one other point, which can be selected from a pool of points. We must exclude 3 points because the point connecting to the point itself doesn't count as a diagonal, and connecting to the 2 adjecent points don't count because they have already been "drawn in" as the sides of the polygon. We would then assume that there are diagonals, right? Wrong. Let's say that two of the points are and . Using the above method, both the diagonals and would be counted. Therefore, we must divide the forumla by 2, giving us the diagonal forumla:
Proof can be found on this post of my blog.
Handshake formula
Proof that the number of handshakes occuring in a group of where each person shakes each other's hand is .
This proof is similar to the diagonal proof, with one exception. Each "vertex" is replaced by a person and people can shake hands to adjacent people. Since each person will shake hands with people (Everyone except themselves) and there are people, we get a doubled handshakes. Once again, we must discount the doubled handshakes occuring between say person A and B. Therefore, we have .
Proof can be found on this post of my blog.
AoPS activity
AoPS activity.
Classes
Classes taken, in order:
1) Introduction to Geometry
2) MATHCOUNTS problem series
3) Intermediate Algebra.
4) AMC 10
5) Introduction to Counting and Probability
6) Introduction to Number Theory
Classes to be taken:
My current, sad accomplishments:
Best:
AMC8: 23
AMC10 A: 114.0
AMC10 B: 106.5
AMC12 A: n/a (untaken.)
AMC12 B: n/a (untaken.)
AIME: n/a (untaken.)
USAMO: n/a (untaken.)
IMO: n/a (untaken.)
SAT:
Mathematics - 690
Critical Reading - 570
Writing - 610
Essay - 8
All:
KSEA:
6th grade: 2nd place locally.
7th grade: 2nd place locally.
Local Math is Cool competition:
4th grade-
4th grade competition – 2nd place
5th grade-
5th grade competition – 2nd place
7th grade competition – 5th place
6th grade –
6th grade competition – 9th place
7th grade competition – 5th place
7th grade –
7th grade competition – 1st place
9th grade competition – 7th place
Music
My musical side?
At a young age, I was not the most talented musician. I couldn't sing, I couldn't move my fingers seperately but here I am now. Playing the cello and piano with (in my opinion) very fluid actions. I have perfect pitch and when I sing, I sing in tune. Its just the quality that is... less than perfect. (Sounds like a duck that swallowed a harmonica.)
For all you less musically knowing, a cello is well described here.
Lets hope you know what a piano is. :)
Masterclasses taken with:
Amy Sue Barston
Alisha Weiserstien
Compositions/Arrangements:
Athletics
It is generally assumed that atheletics is not a great part of an AoPSer's life. I mean what kind of athelete would be sitting here writing this wiki page? Well I follow with that, in moderation.
I love to run. It is something that I discovered this year. Cross country, track. Recently the season has ended and I find myself itching to run.
Tennis. Well I didn't have the best hand-eye around, but I manage to play tennis, relatively well and have lessons every sunday...
Contact
Some ways you can reach me: