Wednesday, November 03, 2010 - 05:31 pm, by: Ty Mackay(Duo89)
HAHAHA this part was hilarious!!
Q: Hey dood...What a fine piece of machinery. How many fat chicks can you fit in the back of that shagg'n wagon?? Hopefully it will bulk out before it will max out. I'm excited!! 26-Oct-10 A: Its takes a Tonne...do your own math! the bulk out to max out ratio co-efficient however is a touch more complex, so i'll give you a hand with that one... firstly we have to take into consideration where the chix are obtained by differentiating the power series definition of eix (see Taylor series). Indeed, since this series converges absolutely for all complex numbers we can differentiate it term by term to obtain, Now we define the function, The derivative of ƒ(x) according to the product rule (note that the product rule can be proved to hold for complex valued functions of a real variable using precisely the same proof as in the real case) is: Therefore, ƒ(x) must be a constant function in x. Because ƒ(0) = 1 by inspection, ƒ(x) = 1, giving, Multiplying both sides by cos x + i sin x, we obtain Using differential equations that you can fit an average of 5 Biggens in the back prior to the max out is breached Hoped this helped