Let $\{ X_{n, m} \}_{n \geq 1, \, 1 \leq m \leq n}$ be a
D5164: Random real standard triangular array such that
(i) |
$X_{n, 1}, \dots, X_{n, n}$ is an D2713: Independent random collection for each $n \geq 1$
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(ii) |
$\mu_{n, m} : = \mathbb{E} X_{n, m} \in \mathbb{R}$
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(iii) |
$\sigma^2_{n, m} : = \text{Var} X_{n, m} \in (0, \infty)$
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(iv) |
\begin{equation}
s^2_n : = \sum_{m = 1}^n \sigma^2_{n, m}
\end{equation}
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(v) |
\begin{equation}
Z_{n, m}
: = \frac{X_{n, m} - \mu_{n, m}}{s_n}
\end{equation}
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Then
(1) |
\begin{equation}
\mathbb{E} (Z_{n, m})
= 0
\end{equation}
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(2) |
\begin{equation}
\text{Var}(Z_{n, m})
= 1
\end{equation}
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