As a consideration from the post "Prove by "elementary methods": The plane cannot be covered by finitely-many copies of the letter "Y"", on the basis of the remark made in previous post by the user Moishe Cohen, is it still possible to apply elementary methods to prove weaker results, namely:
The plane cannot be covered by countably many copies of the letter Y.
As in the previous post, by "letter Y", it is meant that letter Y consists of 3 closed segments that have common point.
In other words, how to extend the idea from the case where there are finitely-many copies of the letter Y, however still using only elementary methods?
Advices/hints/solutions very appreciated!!!
Consider any countable collection $\{L_1,L_2, \dots \}$ of lines in the plane. If $L$ is any line not parallel to one of the $L_k$'s, then $L_k\cap L$ is a single point for each $k.$ Now there are uncountably many such lines $L.$ That's because we have uncountably many slopes available for $L.$ For any such $L,$ an uncountable set, $L$ cannot be covered by $\cup L_k.$
Now any Y in the plane is contained in the union of three lines. Thus the union of any countable collection of Y's is contained in the countable union of lines, and as we've seen, there is a line that is not covered by this collection of lines.