Modulus and characteristic of convexity: Difference between revisions

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Line 3: ==Definitions== The '''modulus of convexity''' of a Banach space (''X'', \|\|&~~middot~~sdot;\|\|) is the function {{nowrap\|''δ'' : [0, 2] → [0, 1]}} defined by :<math>\delta (\varepsilon) = \inf \left\{ 1 - \left\\| \frac{x + y}{2} \right\\| \,:\, x, y \in S, \\| x - y \\| \geq \varepsilon \right\},</math> Line 54: :<math>\left(1-\delta_p(\varepsilon)+\frac{\varepsilon}{2}\right)^p+\left(1-\delta_p(\varepsilon)-\frac{\varepsilon}{2}\right)^p=2. </math> Knowing that <math>\delta_p(\varepsilon+)=0,</math> one can suppose that <math>\delta_p(\varepsilon)=a_0\varepsilon+a_1\varepsilon^2+\cdots</math>. Substituting this into the above, and expanding the left-hand-side as a [[Taylor series]] around <math>\varepsilon=0</math>, one can calculate the <math>a_i</math> coefficients: :<math>\delta_p(\varepsilon)=\frac{p-1}{8}\varepsilon^2+\frac{1}{384}(3-10p+9p^2-2p^3)\varepsilon^4+\cdots. </math>