[QUOTE=Egg_Toaster;17857582]You get a shit load of pie.[/QUOTE]
actually you'd have no pie.
x^2 + 11
x^2 + 11i^2
x + i(square-root)11)
Therefore: x (plus-minus) i(square-root)11
I may have done this wrong because it is late, but I love complex/imaginary numbers and the use of algebra!
[QUOTE=Archive;17864451]actually you'd have no pie.[/QUOTE]
Because I will eat it all.
One and one and one is three
3 - (38 + 3)
= 3 - 48 - 3 = -42.
190410049104014040.1919051901038100190101310101010 DOES = 190410049104014040.1919051901038100190101310101010
i smart
[QUOTE=redback3;17864585]x^2 + 11
x^2 + 11i^2
x + i(square-root)11)
Therefore: x (plus-minus) i(square-root)11
I may have done this wrong because it is late, but I love complex/imaginary numbers and the use of algebra![/QUOTE]
Do they have any practical use
[b]Euler's Identity:[/b]
[img]http://www.mcglaun.com/euler.gif[/img]
ie. [b]e[/b] (Euler's number, ~2.713) to the power of [b]pi[/b] (~3.141) times [b]i[/b] (imaginary number, square root -1) plus [b]1[/b], equals zero.
It's considered a mathematical beauty, hailed as the greatest equation ever.
Stanford mathematics professor Keith Devlin says, "Like a Shakespearean sonnet that captures the very essence of love, or a painting that brings out the beauty of the human form that is far more than just skin deep, Euler's equation reaches down into the very depths of existence."
Irony is no-one has a clue as to what it means.
[QUOTE=Brosi;17895371][b]Euler's Identity:[/b]
e^(pi*i)+1 = 0
ie. [b]e[/b] (Euler's number, ~2.713) to the power of [b]pi[/b] (~3.141) times [b]i[/b] (imaginary number, square root -1) plus [b]1[/b], equals zero.
[/QUOTE]
I don't understand how you can take e^i, i is imaginary and not real.
[b]Edit:[/b]
Looked it up on wikipedia, this is pretty amazing how it works, e^ (x*i) = cosx + i*sin x , x= pi -> cos pi + i * sin pi = -1
[QUOTE=Mattz333;17897923]I don't understand how you can take e^i, i is imaginary and not real.
[b]Edit:[/b]
Looked it up on wikipedia, this is pretty amazing how it works, e^ (x*i) = cosx + i*sin x , x= pi -> cos pi + i * sin pi = -1[/QUOTE]
It's pretty easy to see how it works if you know a bit about Taylor expansions.
e^x = 1 + x + (x^2)/2! + (x^3)/3! + (x^4)/4!...
So e^i*pi = 1 + i*pi + (i*pi)^2/2! + (i*pi)^3/3! + (i*pi)^4/4!...
i^1 = i
i^2 = -1
i^3 = -i
i^4 = 1 etc. etc.
So e^i*pi = 1 + i*pi - pi^2/2! - i*pi^3/3! + pi^4/4!...
And this can be split up into:
(1 - pi^2/2! + pi^4/4! - pi^6/6!...) + (i*pi - i*pi^3/3! + i*pi^5/5!...)
Which are the Taylor expansions for sin(pi) and icos(pi) respectively. So:
e^i*pi = sin(pi) + icost(pi) = -1 + 0 = -1
mind = blown
[img]http://upload.wikimedia.org/math/9/e/0/9e06e49b9eb143aa160e635ecdd0e0ca.png[/img]
A cookie to whoever knows what this equation is!
Facpunch / 0 = Shit going to happen
[QUOTE=waffle man;17906209][img]http://upload.wikimedia.org/math/9/e/0/9e06e49b9eb143aa160e635ecdd0e0ca.png[/img]
A cookie to whoever knows what this equation is![/QUOTE]
Uhh pressure*(volume/time)=uhhhhhh
It looks very close to the Cauchy momentum equation.
7*6 = The answer to the universe and everything.
[QUOTE=Limee;17928621]7*6 = The answer to the universe and everything.[/QUOTE]
There are several issues with this:
1. It's 6*9.
2. "What do you get when you multiply six by nine?" is the ultimate QUESTION. The ANSWER is 42.
I hate those books. People always bring up "42" in an attempt to look clever or whatever. Just shut up already!
6.66 * 10^2 = Number of the beast. Yeaa :neckbeard:
:what:
[quote=rad mccool;17929288]i hate those books. People always bring up "42" in an attempt to look clever or whatever. Just shut up already!
6.66 * 10^2 = number of the beast. Yeaa :neckbeard:
:what:[/quote]
6.16 *10^2
[QUOTE=Rad McCool;17929288]I hate those books.[/QUOTE]
Heresy.
