Abstract
In recent years a new conceptual tool called Complexity Theory has come to the attention of scientists and philosophers. This approach is concerned with the emergent properties of interacting systems. It has found wide applicability from cosmology to Social Structure Analysis. However, practitioners are still struggling to find the best way to define complexity and then to measure it. A new book Complexity and the arrow of time by Lineweaver et al. (2013) contains contributions from scholars who provide critical reviews of Complexity Theory and its wider applications. This is a huge task and this essay examines how well the authors have succeeded in satisfying the claim made by the book’s three editors to have clarified the leading questions. I also explore the application of Complexity Theory to Biology as a means to explain the popular view that biological complexity (as viewed in many guises and at many levels) has increased over time. In this regard, I conclude by recommending an Information Theory approach which urges that physical complexity arises from accumulation of genetic coding sequences.
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