Calculating Expected Value for Independent Random Variables

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jakey
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Hi guys, if X1,X2,...,Xn are independent and identically distributed random variables, how do you find E(max(X1,...,Xn))?

Do you need to do order statistics or anything of that sort here? I got my answer by letting Y=max(X1,...Xn) and I got the CDF and then pdf of Y. For the CDF of Y, I just noted that P(Y<=y) = P(X1<=y, X2<=y,..., Xn<=y). Is this right?
 
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jakey said:
Hi guys, if X1,X2,...,Xn are independent and identically distributed random variables, how do you find E(max(X1,...,Xn))?

Do you need to do order statistics or anything of that sort here? I got my answer by letting Y=max(X1,...Xn) and I got the CDF and then pdf of Y. For the CDF of Y, I just noted that P(Y<=y) = P(X1<=y, X2<=y,..., Xn<=y). Is this right?

Yes: write
[tex] P(Y \le y) = P(X_1 \le y, \dots, X_n \le y) = F_Y^n(y)[/tex]

This allows you to get the density (assuming the quantities are continuous) and then you find the expected value the usual way.