Limit of Sequence in Product of Metric Spaces under Chebyshev Distance

Theorem
Let $M_1 = \struct {A_1, d_1}, M_2 = \struct {A_2, d_2}, \ldots, M_k = \struct {A_n, d_k}$ be metric spaces.

Let $\displaystyle \AA = \prod_{i \mathop = 1}^k A_i$ be the cartesian product of $A_1, A_2, \ldots, A_k$.

Let $d_\infty: \AA \times \AA \to \R$ be the Chebyshev distance on $\AA$:
 * $\displaystyle \map {d_\infty} {x, y} = \max_{i \mathop = 1}^k \set {\map {d_i} {x_i, y_i} }$

where $x = \tuple {x_1, x_2, \ldots, x_k}, y = \tuple {y_1, y_2, \ldots, y_k} \in \AA$.

Let $\sequence {a_n}$ be a sequence of points of $\AA$:
 * $a_n = \tuple {a_{n 1}, a_{n 2}, \ldots, a_{n k} } \in \AA$

Let $c = \tuple {c_1, c_2, \ldots, c_k} \in \AA$.

Then:
 * $\displaystyle \lim_{n \mathop \to \infty} a_n = c \iff \forall i \in \set {1, 2, \ldots, k}: \lim_{n \mathop \to \infty} a_{n i} = c_i$

where $\displaystyle \lim_{n \mathop \to \infty}$ denotes a limit.