Revision as of 16:31, 9 December 2008 by Nbrowdue (Talk)

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$ f_{y|x}(y|a)= \frac {f_{X,Y}(x,y)}{f_X(a)}\qquad \mathrm{Where}\ f_X(a) = f_X(x)\ \mathrm{for}\ 0<x<0.5 $

I'm not sure if this is right


I agree with your proposal, Arie. Let's finish this section of the problem:

$ f_{Y|X}(y|a)= \frac {f_{X,Y}(a,y)}{f_X(a)} $

We know $ f_X (a) = \frac{2}{3} $ from part a, and from the graph, $ f_{XY} (a,y) = \{\frac{4}{3}, \ \ 0.5 \leq y \leq 1; \ \ \ 0, \ \ \text{else}\} $.

So, dividing, $ f_{Y|X}(y|a)= = \{2, \ \ 0.5 \leq y \leq 1; \ \ \ 0, \ \ \text{else}\} $.

$ E(Y|X=a) = \frac{3}{4} $, and $ Var(Y|X=a) = \frac{1}{48} $, since $ f_{Y|X}(y|a) \frac{}{} $ has a uniform PDF.

-Brian (Thomas34 00:23, 9 December 2008 (UTC))

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