Definition:Subdivision (Real Analysis)/Rectangle
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Definition
Let $R = \closedint {a_1} {b_1} \times \dotso \times \closedint {a_n} {b_n}$ be a closed rectangle in $\R^n$.
Let:
- $P = \tuple {P_1, \dotsc, P_n}$
where every $P_i$ is a finite subdivision of $\closedint {a_i} {b_i}$.
Then $P$ is a finite subdivision of the closed rectangle $R$.
Subrectangle
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For every $1 \le i \le n$, let:
- $P_i = \set {x_{i,0}, \dotsc, x_{i,m_i}}$
Then, for all $k_1, \dotsc, k_n$, where:
- $1 \le k_i \le m_i$
the closed rectangle:
- $\closedint {x_{1,k_1 - 1}} {x_{1,k_1}} \times \dotso \times \closedint {x_{i,k_i - 1}} {x_{i,k_i}} \times \dotso \times \closedint {x_{n,k_n - 1}} {x_{n,k_n}}$
is a subrectangle of $P$.
Sources
- 1965: Michael Spivak: Calculus on Manifolds: $3$ Integration