The Hilbert cube $H$ in $\ell^2=\ell^2(\mathbb{R})$ is the subset given by $H=\lbrace(x_n)=(x_1,x_2,\ldots)\in\ell^2:|x_n|\le2^{-n} \text{ for }n=1,2,\ldots\rbrace.$ I've heard that $\overline{\mathrm{Sp}{(H)}}=H$ and core$(H)=\varnothing$, where $\overline{\mathrm{Sp}{(H)}}$ denotes the closed linear span of $H$. An element $x\in H$ is in core$(H)$ whenever $\ell^2=\bigcup_{t>0}t\cdot(H\setminus\{x\})$ where $t\cdot(H\setminus\{x\})=\{t\cdot y: y\in (H\setminus\{x\})\}$.
Is there a book where I can find a proof of there statements?