Suppose $X_1,X_2,\ldots,X_{n}$ be a random sample of $B(20,.5)$. How can find limit distribution $Y_n=\displaystyle\frac{1}{n}\sum_{i=1}^n (X_i-10)^2$
limit distribution $Y_n=\frac{1}{n}\sum\limits_{i=1}^n (X_i-10)^2$
-1
$\begingroup$
statistics
1 Answers
0
Hint: If you were asked this question, I am sure that you have already done the Central Limit Theorem. To use that, all you need to know is the mean and variance of $(X_i-10)^2$.
The mean of $(X_i- 10)^2$ is undoubtedly already known to you.
For the variance of $(X_i-10)^2$, which you also need, you can use the moment generating function of the Binomial, if you have seen moment generating functions. If you have not, you can let $Y_i=(X_i-10)^2$. We want $E(Y_i^2)-(E(Y_i))^2$. The term $E(Y_i^2)$, if you can think of nothing better, can be found by summing $21$ terms that are not very hard to compute.