Q&A

How do you show two sets are the same size?

How do you show two sets are the same size?

To show that two sets are the same size we simply need to demonstrate a one-to-one and onto function between the two. If, however, we need to prove that two sets are not the same size, we have to prove that there does not exist a function between the sets that is one-to-one and onto.

How do you prove two sets are equinumerous?

In mathematics, two sets or classes A and B are equinumerous if there exists a one-to-one correspondence (or bijection) between them, that is, if there exists a function from A to B such that for every element y of B, there is exactly one element x of A with f(x) = y.

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How can you show that 0 1 and 0 1 have the same cardinality?

Example. Show that the open interval (0, 1) and the closed interval [0, 1] have the same cardinality. The open interval 0

How do you know if two sets are equal?

Two sets are equal if they contain the same elements. Two sets are equivalent if they have the same cardinality or the same number of elements.

What is equal set and equivalent set?

In other words, two or more sets are said to be equal sets if they have the same elements and the same number of elements. Now, two sets are said to be unequal sets if all the elements are not the same in two sets, and sets that have the same number of elements are called equivalent sets.

Are N and Z Equinumerous?

Since Z is equinumerous with N, we can also count or enumerate the elements of Z, so that for every n ∈ N we can identify an integer an as the n-th integer.

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What is an unequal set?

Two sets are said to be unequal set when all the elements of one set are not present in the another set. The sets may have different elements, then the sets are called as unequal sets.

Can two sets of the same size have the same bijection?

Yes, because that’s the definition of 2 sets having the same “size”. Some people here are misinterpreting this as “constructing a bijection” which is obviously unnecessary. If you use the Geldfond-Schneider theorem you’re also showing that a bijection exists, it’s just one possible way out of many.

How do you prove that is a one to one bijection?

The point is that being a one-to-one function implies that the size of is less than or equal to the size of , so in fact they have equal sizes. One can also prove that is a bijection by showing that it has an inverse: a function such that and for all and .

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What is a one-to-one bijection between two finite sets?

A one-to-one function between two finite sets of the same size must also be onto, and vice versa. (Of course, if A and B don’t have the same size, then there can’t possibly be a bijection between them in the first place.)

What does “and have the same size” mean?

Note that the definition of “ and have the same size” is that there exists some bijection . A proof has to start with a one-to-one (or onto) function , and some completely unrelated bijection , and somehow prove that is onto (or one-to-one).