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Brute Facts
Brute facts are facts that don't have explanations. They are instrumental in our attempts to give accounts of other facts or phenomena, and so they play a key role in many philosophers' views about the structure of the world. This volume explores neglected questions about the nature of brute facts and their explanatory role.
Philosophy of Systems Biology
The emergence of systems biology raises many fascinating questions: What does it mean to take a systems approach to problems in biology? To what extent is the use of mathematical and computational modelling changing the life sciences? How does the availability of big data influence research practices? What are the major challenges for biomedical research in the years to come? This book addresses such questions of relevance not only to philosophers and biologists but also to readers interested in the broader implications of systems biology for science and society. The book features reflections and original work by experts from across the disciplines including systems biologists, philosophers,...
Hierarchical Emergent Ontology and the Universal Principle of Emergence
This book offers a new look at emergence in terms of a hierarchical emergent ontology. Emergence is recognised as a universal principle, as universal as the principle of evolution. This is achieved by setting out the ontological criteria of emergence and such criteria’s various roles. The traditional dichotomies are overcome, e.g., the synchronic and diachronic perspectives are unified, allowing a single, universal principle of emergence to be applied across various fields of science. As exemplars of its practical utility in both explanation and prediction, this new approach is applied to three different scientific areas: cellular automata, quantum Hall effects, and the neural network of the mind. It proves that the resulting metaphysics of hierarchical emergent ontology plays a fundamental role in unifying science, an impossible task under classical reductionism.
Explanation in Biology
Patterns of explanation in biology have long been recognized as different from those deployed in other scientific disciplines, especially that of physics. Celebrating the diversity of interpretative models found in biology, this volume details their varying types as well as explaining their relationships to one another. It covers the key differentials with other sciences in the nature of explanation, such as the existence in biology of varieties unheard of in the physical sciences, such as teleological, evolutionary and even functional explanations. Offering a wealth of fresh analysis of the phenomenon, chapters examine aspects ranging from the role of mathematics in explaining cell development to the complexities thrown up by evolutionary-developmental biology, where explanation is altered by multidisciplinarity itself. They cover major domains such as ecology and systems biology, as well as contemporary trends, such as the mechanistic explanations spawned by progress in molecular biology. With contributions from researchers of many different nationalities, the book provides a many-angled perspective on a revealing feature of the discipline of biology.
Philosophy by Women
What is philosophy, why does it matter, and how would it be different if women wrote more of it? At a time when the importance of philosophy, and the humanities in general, is being questioned and at a time when the question of gender equality is a huge public question, 22 women in philosophy lay out in this book how they think of philosophy, what they actually do, and how that is applied to actual problems. By bringing together accounts of the personal experiences of women in philosophy, this book provides a new understanding of the ways in which the place of women in philosophy has changed in recent decades while also introducing the reader to the nature and the value of philosophy.
Putting Properties First
Putting Properties First considers the metaphysics of natural science. It develops and defends a contemporary metaphysical theory of natural modality called 'Modal Platonism', which puts properties first in the metaphysical hierarchy. According to this theory, natural properties-such as mass and charge-are fundamental entities which ground the laws of nature and the behavioural dispositions of physical things. This theory differs from other 'properties-first' approaches in two main ways. First, it views properties as Platonic universals, which exist even if they are not instantiated by anything. Second, the theory rejects the popular idea that properties are identical with, or essentially dependent upon, dispositions. Instead, Modal Platonism views properties as qualities which necessarily ground dispositions and other modal phenomena. This theory solves a range of philosophical puzzles regarding dispositions and laws. Given that laws of nature are a necessary precondition for scientific enquiry, Modal Platonism promises to provide a plausible metaphysical framework for all natural science.
Emergence in Context
"Science, philosophy of science, and metaphysics have long been concerned with the question of how novel things emerge. How can order come out of disorder? This book introduces a new account, contextual emergence, seeking to answer such questions."--Back cover.
Directory of American Philosophers, 2018-2019
The new edition of this essential resource contains thousands of edited listings for university and college philosophy programs, research centers, professional organizations, academic journals, and philosophy publishers in both countries. It also includes contact information for over 15,000 philosophers in the U.S. and Canada, and a brief statistical overview of the field.
