Complete+bounded homeomorphic to incomplete+unbounded
I'm aware that completeness and (total) boundedness are not preserved under homeomorphism, with $(0,1) cong mathbb R$ being a counterexample to both simultaneously. I'm curious if there exists a "double counterexample" in another way:
Are there homeomorphic metric spaces $M$ and $N$ such that
$M$ is both complete and bounded,
but $N$ is neither complete nor bounded?
Of course in that case, $M$ could not be totally bounded, else it would be compact, which is certainly a topological property!
general-topology metric-spaces
asked 4 hours ago
Evan Chen
1,145516
add a comment |
I'm aware that completeness and (total) boundedness are not preserved under homeomorphism, with $(0,1) cong mathbb R$ being a counterexample to both simultaneously. I'm curious if there exists a "double counterexample" in another way:
Are there homeomorphic metric spaces $M$ and $N$ such that
$M$ is both complete and bounded,
but $N$ is neither complete nor bounded?
Of course in that case, $M$ could not be totally bounded, else it would be compact, which is certainly a topological property!
general-topology metric-spaces
asked 4 hours ago
Evan Chen
1,145516
add a comment |
I'm aware that completeness and (total) boundedness are not preserved under homeomorphism, with $(0,1) cong mathbb R$ being a counterexample to both simultaneously. I'm curious if there exists a "double counterexample" in another way:
Are there homeomorphic metric spaces $M$ and $N$ such that
$M$ is both complete and bounded,
but $N$ is neither complete nor bounded?
Of course in that case, $M$ could not be totally bounded, else it would be compact, which is certainly a topological property!
general-topology metric-spaces
asked 4 hours ago
Evan Chen
1,145516
I'm aware that completeness and (total) boundedness are not preserved under homeomorphism, with $(0,1) cong mathbb R$ being a counterexample to both simultaneously. I'm curious if there exists a "double counterexample" in another way:
Are there homeomorphic metric spaces $M$ and $N$ such that
$M$ is both complete and bounded,
but $N$ is neither complete nor bounded?
Of course in that case, $M$ could not be totally bounded, else it would be compact, which is certainly a topological property!
general-topology metric-spaces
general-topology metric-spaces
asked 4 hours ago
Evan Chen
1,145516
asked 4 hours ago
Evan Chen
1,145516
asked 4 hours ago
Evan Chen
1,145516
asked 4 hours ago
Evan Chen
1,145516
asked 4 hours ago
Evan Chen
1,145516
1,145516
add a comment |
add a comment |
2 Answers
2
active
oldest
votes
You could let $M$ be $mathbb R$ with the metric $d(x,y)=min(1,|x-y|)$ and $N$ be $(0,infty)$ with the usual metric.
answered 3 hours ago
Henning Makholm
237k16301536
Thanks! Do you mind if I include this example in my metric topology notes? I would credit you and link here.
– Evan Chen
3 hours ago
@EvanChen: Sure, go ahead.
– Henning Makholm
3 hours ago
add a comment |
Yes. Let $M$ be $mathbb N$ with the discrete metric, and let $N= {1/n:nin mathbb N}cup {2,3,4,dots}$ with the usual $mathbb R$ metric.
answered 3 hours ago
zhw.
71.5k43075
add a comment |
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2 Answers
2
active
oldest
votes
2 Answers
2
active
oldest
votes
active
oldest
votes
active
oldest
votes
You could let $M$ be $mathbb R$ with the metric $d(x,y)=min(1,|x-y|)$ and $N$ be $(0,infty)$ with the usual metric.
answered 3 hours ago
Henning Makholm
237k16301536
Thanks! Do you mind if I include this example in my metric topology notes? I would credit you and link here.
– Evan Chen
3 hours ago
@EvanChen: Sure, go ahead.
– Henning Makholm
3 hours ago
add a comment |
You could let $M$ be $mathbb R$ with the metric $d(x,y)=min(1,|x-y|)$ and $N$ be $(0,infty)$ with the usual metric.
answered 3 hours ago
Henning Makholm
237k16301536
Thanks! Do you mind if I include this example in my metric topology notes? I would credit you and link here.
– Evan Chen
3 hours ago
@EvanChen: Sure, go ahead.
– Henning Makholm
3 hours ago
add a comment |
You could let $M$ be $mathbb R$ with the metric $d(x,y)=min(1,|x-y|)$ and $N$ be $(0,infty)$ with the usual metric.
answered 3 hours ago
Henning Makholm
237k16301536
You could let $M$ be $mathbb R$ with the metric $d(x,y)=min(1,|x-y|)$ and $N$ be $(0,infty)$ with the usual metric.
answered 3 hours ago
Henning Makholm
237k16301536
answered 3 hours ago
Henning Makholm
237k16301536
answered 3 hours ago
Henning Makholm
237k16301536
answered 3 hours ago
Henning Makholm
237k16301536
237k16301536
Thanks! Do you mind if I include this example in my metric topology notes? I would credit you and link here.
– Evan Chen
3 hours ago
@EvanChen: Sure, go ahead.
– Henning Makholm
3 hours ago
add a comment |
Thanks! Do you mind if I include this example in my metric topology notes? I would credit you and link here.
– Evan Chen
3 hours ago
@EvanChen: Sure, go ahead.
– Henning Makholm
3 hours ago
Thanks! Do you mind if I include this example in my metric topology notes? I would credit you and link here.
– Evan Chen
3 hours ago
Thanks! Do you mind if I include this example in my metric topology notes? I would credit you and link here.
– Evan Chen
3 hours ago
@EvanChen: Sure, go ahead.
– Henning Makholm
3 hours ago
@EvanChen: Sure, go ahead.
– Henning Makholm
3 hours ago
add a comment |
Yes. Let $M$ be $mathbb N$ with the discrete metric, and let $N= {1/n:nin mathbb N}cup {2,3,4,dots}$ with the usual $mathbb R$ metric.
answered 3 hours ago
zhw.
71.5k43075
add a comment |
Yes. Let $M$ be $mathbb N$ with the discrete metric, and let $N= {1/n:nin mathbb N}cup {2,3,4,dots}$ with the usual $mathbb R$ metric.
answered 3 hours ago
zhw.
71.5k43075
add a comment |
Yes. Let $M$ be $mathbb N$ with the discrete metric, and let $N= {1/n:nin mathbb N}cup {2,3,4,dots}$ with the usual $mathbb R$ metric.
answered 3 hours ago
zhw.
71.5k43075
Yes. Let $M$ be $mathbb N$ with the discrete metric, and let $N= {1/n:nin mathbb N}cup {2,3,4,dots}$ with the usual $mathbb R$ metric.
answered 3 hours ago
zhw.
71.5k43075
answered 3 hours ago
zhw.
71.5k43075
answered 3 hours ago
zhw.
71.5k43075
answered 3 hours ago
zhw.
71.5k43075
71.5k43075
add a comment |
add a comment |
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