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Given that a train arrives at a train station every hour (1:20, 2:20, 3:20 etc.) and that I go to the train station from 1:00 to 2:00 how much time do I wait? <BR><BR> | Given that a train arrives at a train station every hour (1:20, 2:20, 3:20 etc.) and that I go to the train station from 1:00 to 2:00 how much time do I wait? <BR><BR> | ||
| + | =Answer= | ||
If you go to the edit page you can see this better. I am not sure how to get wiki to show this the way I want it to. If you know how please feel free to fix it.<BR><BR> | If you go to the edit page you can see this better. I am not sure how to get wiki to show this the way I want it to. If you know how please feel free to fix it.<BR><BR> | ||
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1<BR><BR> | 1<BR><BR> | ||
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| + | [[Main_Page_ECE302Fall2008sanghavi|Back to ECE302 Fall 2008 Prof. Sanghavi]] | ||
Latest revision as of 13:20, 22 November 2011
Question
Given that a train arrives at a train station every hour (1:20, 2:20, 3:20 etc.) and that I go to the train station from 1:00 to 2:00 how much time do I wait?
Answer
If you go to the edit page you can see this better. I am not sure how to get wiki to show this the way I want it to. If you know how please feel free to fix it.
x= time I arrive
y= wait time
A={x<=1:20} P[A]=1/3
B={X>=1:20} P[B]=2/3
Theorem of Total Probability
fY(y)=fY/A(y)*P[A] + fY/B(y)*P[B]
fY/A
|
3 |_____
| |
|_____|______
1/3
fY/B
|
2/3 | ______
| | |
|____|______|______
1/3 1
FY(y)
|
1 |___________
| |
|___________|______
1
