Why does a space vector $V$ must have finite dimension to be isomorphic to its bidual $V^{**}$?

Let $V$ be a vector space over a field $\mathbb{F}$. There is always an injective map $\Psi : V \to (V^*)^*$ given by $v \mapsto \operatorname{ev}_v$ where $\operatorname{ev}_v : V^* \to \mathbb{F}$ is given by $\varphi \mapsto \varphi(v)$. If $V$ is finite-dimensional, then $\Psi$ is an isomorphism, while if $V$ is infinite-dimensional, then $\Psi$ is not an isomorphism; see this answer.

Whether $V$ is finite-dimensional or not, given a vector $v$, we have $\Psi(v) \in (V^*)^*$. That is, $v$ corresponds to a linear map $\operatorname{ev}_v : V^* \to \mathbb{F}$, i.e. a $(1, 0)$-tensor. However, given an arbitrary $(1, 0)$-tensor, we can only state that this corresponds to a vector if $V$ is finite-dimensional.

Tags:

Tensors

Multilinear Algebra

Related

Difference between consistency and satisfiability Proving that $\sum_{k=0}^{2n} {2k \choose k } {2n \choose k}\left( \frac{-1}{2} \right)^k=4^{-n}~{2n \choose n}.$ What is the probability that two cards drawn from a deck are both face cards and at least one is red? Show that the characteristic polynomial is the same as the minimal polynomial Covering a compact set with balls whose centers do not belong to other balls. Lax-Wendroff method for nonlinear hyperbolic systems of conservation laws How to find the radius of this smaller circle? Inequality of Product and Sum Finding center and rotation angle of ellipse that contains three points How to show that $f(z)= 1/(z-a)$ is periodic with period $2\pi i$? Given $A^2 = A - I$ find $A^{15}$ Interesting subspace of $M_n(\mathbb{C})$ [CMI 2019]

Recent Posts