In mathematics, an ordered algebra is an algebra over the real numbers [math]\displaystyle{ \mathbb{R} }[/math] with unit e together with an associated order such that e is positive (i.e. e ≥ 0), the product of any two positive elements is again positive, and when A is considered as a vector space over [math]\displaystyle{ \mathbb{R} }[/math] then it is an Archimedean ordered vector space.
Let A be an ordered algebra with unit e and let C* denote the cone in A* (the algebraic dual of A) of all positive linear forms on A. If f is a linear form on A such that f(e) = 1 and f generates an extreme ray of C* then f is a multiplicative homomorphism.[1]
Stone's Algebra Theorem:[1] Let A be an ordered algebra with unit e such that e is an order unit in A, let A* denote the algebraic dual of A, and let K be the [math]\displaystyle{ \sigma\left( A^{*}, A \right) }[/math]-compact set of all multiplicative positive linear forms satisfying f(e) = 1. Then under the evaluation map, A is isomorphic to a dense subalgebra of [math]\displaystyle{ C_{\mathbb{R}}(X) }[/math]. If in addition every positive sequence of type l1 in A is order summable then A together with the Minkowski functional pe is isomorphic to the Banach algebra [math]\displaystyle{ C_{\mathbb{R}}(X) }[/math].
Original source: https://en.wikipedia.org/wiki/Ordered algebra.
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