Verify: any countable ordered set is similar to a subset of Q intersect (0,1).

[Q] Prove or disprove: a)every subset of an uncountable set is countable. b)every subset of a...

[Q] Prove or disprove: a)every subset of an uncountable set is countable. b)every subset of a countable set is countable. c)every superset of a countable set is countable.

41. Prove that a proper subset of a countable set is countable

41. Prove that a proper subset of a countable set is countable

Prove that any countable subset of [a,b] has measure zero. Recall that a set S has...

Prove that any countable subset of [a,b] has measure zero. Recall that a set S has measure zero if  there is a countable collection of open intervals  with .

why is every countable subset a zero set? real analysis

why is every countable subset a zero set? real analysis

true or false? every uncountable set has a countable subset. explain

true or false? every uncountable set has a countable subset. explain

Prove that the set of all finite subsets of Q is countable

Prove that the set of all finite subsets of Q is countable

Let C [0,1] be the set of all continuous functions from [0,1] to R. For any...

Let C [0,1] be the set of all continuous functions from [0,1] to R. For any f,g ∈ C[0,1] define dsup(f,g) = maxxE[0,1] |f(x)−g(x)| and d1(f,g) = ∫10 |f(x)−g(x)| dx. a) Prove that for any n≥1, one can find n points in C[0,1] such that, in dsup metric, the distance between any two points is equal to 1. b) Can one find 100 points in C[0,1] such that, in d1 metric, the distance between any two points is equal to...

There is an uncountable ordered set which is similar to each of its uncountable subsets.

There is an uncountable ordered set which is similar to each of its uncountable subsets.

Let (X,d) be a metric space which contains an infinite countable set Ewith the property x,y...

Let (X,d) be a metric space which contains an infinite countable set Ewith the property x,y ∈ E ⇒ d(x,y) = 1. (a) Show E is a closed and bounded subset of X. (b) Show E is not compact. (c) Explain why E cannot be a subset of Rn for any n.

Use the definition to prove that any denumerable set is equinumerous with a proper subset of...

Use the definition to prove that any denumerable set is equinumerous with a proper subset of itself. (This section is about infinite sets)