m (2a Ken Pesyna moved to 4.2a Ken Pesyna: Improperly named originally)
 
(One intermediate revision by one other user not shown)
Line 1: Line 1:
The E[x] equation you come up with in this problem can be simplified (rid the summation term) by using a differentiated for of the commonly used geometric series. <math>\sum_{n=0}^\infty r^n = 1/(1-r)</math>
+
The E[x] equation you come up with in this problem can be simplified (rid the summation term) by using a differentiated form of the commonly used geometric series equation: <math>\sum_{n=0}^\infty r^n = 1/(1-r)</math>
  
 
Now take the derivative with respect to r and you get:
 
Now take the derivative with respect to r and you get:

Latest revision as of 06:43, 15 October 2008

The E[x] equation you come up with in this problem can be simplified (rid the summation term) by using a differentiated form of the commonly used geometric series equation: $ \sum_{n=0}^\infty r^n = 1/(1-r) $

Now take the derivative with respect to r and you get:

$ \sum_{n=0}^\infty nr^{n-1} = 1/(1-r)^2 $

You can use this equation to simplify your expected value.

Alumni Liaison

Have a piece of advice for Purdue students? Share it through Rhea!

Alumni Liaison