Answer to Question #274152 in Linear Algebra for Nikhil Singh

Let "\\left\\{e_{1}, e_{2}\\right\\}" be a basis in "\\mathbb{R}^{3}" . Then

"W_{n}=\\left\\{\\alpha\\left(e_{1}+n e_{2}\\right), \\alpha \\in \\mathbb{R}\\right\\}, n \\in \\mathbb{N}"

are all different proper vector subspaces. Indeed, suppose "W_{n}=W_{m}" .

Then "e_{1}+n e_{2}=\\alpha\\left(e_{1}+m e_{2}\\right)" for some "\\alpha."

Then "(\\alpha-1) e_{1}+(m \\alpha-n) e_{2}=0"

From which "\\alpha=1, \\alpha=n \/ m, i.e. \\ n=m."

This proves that "W_{n}" are all different. And there are infinitely many of them.

Conclusion: "\\mathbb{R}^{3}" has infinitely many nonzero, proper vector subspaces - true.