- #1
mathmari
Gold Member
MHB
- 5,049
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Hey! 
I am looking at the proof of the theorem that for any rectangle the outer measure is equal to the volume.
At the beginning of the proof there is the following sentence:
It is enough to look at the case where the rectangle R is closed and bounded.
Why does it stand?? (Wondering)
Is it maybe as followed??A closed rectangle is
$$[a_1,b_1] \times [a_2,b_2] \times \dots \times [a_d,b_d]$$
An open rectangle is
$$(a_1,b_1) \times (a_2,b_2) \times \dots \times (a_d,b_d)$$
which can be written as a union of closed intervals.
I am looking at the proof of the theorem that for any rectangle the outer measure is equal to the volume.
At the beginning of the proof there is the following sentence:
It is enough to look at the case where the rectangle R is closed and bounded.
Why does it stand?? (Wondering)
Is it maybe as followed??A closed rectangle is
$$[a_1,b_1] \times [a_2,b_2] \times \dots \times [a_d,b_d]$$
An open rectangle is
$$(a_1,b_1) \times (a_2,b_2) \times \dots \times (a_d,b_d)$$
which can be written as a union of closed intervals.