Line 20: Line 20:
 
<math>f\left( x \right)=2x^3</math>
 
<math>f\left( x \right)=2x^3</math>
  
<math>
+
<tex>
 
\begin{split}
 
\begin{split}
 
&\lim_{N\rightarrow\infty}\sum_{n=1}^Nf\left( x_n^* \right)\,\Delta x_n
 
&\lim_{N\rightarrow\infty}\sum_{n=1}^Nf\left( x_n^* \right)\,\Delta x_n
 
\end{split}
 
\end{split}
</math>
+
</tex>
 
[[Category:MA181Fall2011Bell]]
 
[[Category:MA181Fall2011Bell]]

Revision as of 15:04, 5 September 2011

Homework 2 collaboration area

Here's some interesting stuff:

$ \sum_{n=1}^N 1 = \dfrac11N $

$ \sum_{n=1}^N n = \dfrac12N\left(N+1\right) $

$ \sum_{n=1}^N n\left(n+1\right) = \dfrac13N\left(N+1\right)\left(N+2\right) $

       $ \vdots $                  $ \vdots $

$ \sum_{n=1}^N \dfrac{\left(n+k\right)!}{\left(n-1\right)!} = \dfrac1{k+2}\cdot\dfrac{\left(N+k+1\right)!}{\left(N-1\right)!}\quad \mathrm{for}\;k\in\mathbb{N} $


S5.2_45

$ f\left( x \right)=2x^3 $

<tex> \begin{split} &\lim_{N\rightarrow\infty}\sum_{n=1}^Nf\left( x_n^* \right)\,\Delta x_n \end{split} </tex>

Alumni Liaison

Correspondence Chess Grandmaster and Purdue Alumni

Prof. Dan Fleetwood