James's theorem

In mathematics, particularly functional analysis, James' theorem, named for Robert C. James, states that a Banach space ${\displaystyle X}$ is reflexive if and only if every continuous linear functional's norm on ${\displaystyle X}$ attains its supremum on the closed unit ball in ${\displaystyle X.}$

A stronger version of the theorem states that a weakly closed subset ${\displaystyle C}$ of a Banach space ${\displaystyle X}$ is weakly compact if and only if the dual norm each continuous linear functional on ${\displaystyle X}$ attains a maximum on ${\displaystyle C.}$

The hypothesis of completeness in the theorem cannot be dropped.^[1]

The space ${\displaystyle X}$ considered can be a real or complex Banach space. Its continuous dual space is denoted by ${\displaystyle X^{\prime }.}$ The topological dual of ${\displaystyle ℝ}$-Banach space deduced from ${\displaystyle X}$ by any restriction scalar will be denoted ${\displaystyle X_{ℝ}^{\prime }.}$ (It is of interest only if ${\displaystyle X}$ is a complex space because if ${\displaystyle X}$ is a ${\displaystyle ℝ}$-space then ${\displaystyle X_{ℝ}^{\prime }=X^{\prime }.}$)

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A Banach space being reflexive if and only if its closed unit ball is weakly compact one deduces from this, since the norm of a continuous linear form is the upper bound of its modulus on this ball:

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Historically, these sentences were proved in reverse order. In 1957, James had proved the reflexivity criterion for separable Banach spaces^[2] and 1964 for general Banach spaces.^[3] Since the reflexivity is equivalent to the weak compactness of the unit sphere, Victor L. Klee reformulated this as a compactness criterion for the unit sphere in 1962 and assumes that this criterion characterizes any weakly compact quantities.^[4] This was then actually proved by James in 1964.^[5]

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