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Line 314: :<math>A(z) = \sum_{k = 0}^{\infty} \frac{B(z)^k}{k} = \ln\left(\frac{1}{1-B(z)}\right).</math> ===Boxed ~~produuct~~product=== In labelled structures, the min-boxed product <math>\mathcal{A}_{min} = \mathcal{B}^{\square}\star \mathcal{C}</math> is ~~dfined~~defined as the product construction with one more requirement that the element with smallest label is in <math>\mathcal{B}</math>. Similar, we can defined a max-boxed product and denoted by <math>\mathcal{A}_{max} = \mathcal{B}^{\blacksquare}\star \mathcal{C}</math>, where the element with largest label is in <math>\mathcal{B}</math>. We have, :<math>A_{min}(Z)=A_{max}(Z)=\int^{z}_{0}B'(t)C(t)dt.</math> or says,

Symbolic method (combinatorics): Difference between revisions