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Added by: Laura Jimenez
Abstract: This paper explores a number of recent proposals regarding "feminist science" and rejects a content-based approach in favor of a process-based approach to characterizing feminist science. Philosophy of science can yield models of scientific reasoning that illuminate the interaction between cultural values and ideology and scientific inquiry. While we can use these models to expose masculine and other forms of bias, we can also use them to defend the introduction of assumptions grounded in feminist political values.Longino, Helen. Cognitive and Non-Cognitive Values in Science: Rethinking the Dichotomy1996, In Feminism, science, and the philosophy of science, Lynn Hankinson Nelson and Jack Nelson (Eds.) (pp. 39-58). Springer, Dordrecht.-
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Added by: Simon Fokt, Contributed by: Patricia Rich
Abstract: Underdetermination arguments support the conclusion that no amount of empirical data can uniquely determine theory choice. The full content of a theory outreaches those elements of it (the observational elements) that can be shown to be true (or in agreement with actual observations).2 A number of strategies have been developed to minimize the threat such arguments pose to our aspirations to scientific knowledge. I want to focus on one such strategy: the invocation of additional criteria drawn from a pool of cognitive or theoretical values, such as simplicity or gen- erality, to bolster judgements about the worth of models, theories, and hypotheses. What is the status of such criteria? Larry Laudan, in Science and Values, argued that cognitive values could not be treated as self-validating, beyond justification, but are embedded in a three-way reticulational system containing theories, methods, and aims or values, which are involved in mutually supportive relation- ships (Laudan, 1984). My interest in this paper is not the purportedly self- validating nature of cognitive values, but their cognitive nature. Although Laudan rejects the idea that what he calls cognitive values are exempt from rational critic- ism and disagreement, he does seem to think that the reticulational system he identifies is independent of non-cognitive considerations. It is this cognitive/ non-cognitive distinction that I wish to query in this paper. Let me begin by summarizing those of my own views about inquiry in which this worry about the distinction arises.Comment: This is a useful text discussing values in science, including clear definitions and examples, which also takes a feminist perspective on the application of values. It doesn't require very special background knowledge, but general familiarity with philosophy of science or science itself would be useful. It could fit in a variety of philosophy of science courses.
Massimi, Michaela. Why There are No Ready-Made Phenomena: What Philosophers of Science Should Learn From Kant2008, Royal Institute of Philosophy Supplement 63:1-35.-
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Added by: Sara Peppe
Abstract: The debate on scientific realism has raged among philosophers of science for decades. The scientific realist's claim that science aims to give us a literally true description of the way things are, has come under severe scrutiny and attack by Bas van Fraassen's constructive empiricism. All science aims at is to save the observable phenomena, according to van Fraassen. Scientific realists have faced since a main sceptical challenge: the burden is on them to prove that the entities postulated by our scientific theories are real and that science is still in the 'truth' business.Comment: This article provides a very clear explanation of the scientific realism/Van Fraassen's constructive empiricism debate highlighting scientific realists' main difficulty, i.e find a proof that entities posited by science are real. Presupposes some background on the above mentioned themes.
Massimi, Michela. Pauli’s Exclusion Principle: The origin and validation of a scientific principle2005, Cambridge University Press.-
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Added by: Laura Jimenez
Publisher's Note: There is hardly another principle in physics with wider scope of applicability and more far-reaching consequences than Pauli's exclusion principle. This book explores the principle's origin in the atomic spectroscopy of the early 1920s, its subsequent embedding into quantum mechanics, and later experimental validation with the development of quantum chromodynamics. The reconstruction of this crucial historic episode provides an excellent foil to reconsider Kuhn's view on incommensurability. The author defends the prospective rationality of the revolutionary transition from the old to the new quantum theory around 1925 by focusing on the way Pauli's principle emerged as a phenomenological rule 'deduced' from some anomalous phenomena and theoretical assumptions of the old quantum theory. The subsequent process of validation is historically reconstructed and analysed within the framework of 'dynamic Kantianism'Comment: In principle, I would recommend the book for postgraduates specialized on the topic; although in terms of difficulty, an undergraduate wouldn't have any problem to understand it. The book is also useful for anyone interested in the development of quantum physics during the 20th century.
Massimi, Michela, John Peacock. The origins of the universe: laws, testability and observability in cosmology2014, in M. Massimi (ed.), Philosophy and the Sciences for Everyone. Routledge.-
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Added by: Laura Jimenez
Summary: How did our universe form and evolve? Was there really a Big Bang, and what came before it? This chapter takes the reader through the history of contemporary cosmology and looks at how scientists arrived at the current understanding of our universe. It explores the history of astronomy, with the nebular hypothesis back in the eighteenth century, and in more recent times, Einstein's general relativity and the ensuing cosmological models. Finally, it explains the current Standard Model and early universe cosmology as well as the experimental evidence behind it.Comment: This chapter could be used as an introductory reading to philosophy of cosmology. It provides a general overview of the history of cosmology and of the philosophical problems (laws, uniqueness, observability) that stood in the way of cosmology becoming a science. It is recommendable for undergraduate courses.
Massimi, Michela, John Peacock. What are dark matter and dark energy?2014, in M. Massimi (ed.), Philosophy and the Sciences for Everyone. Routledge-
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Added by: Laura Jimenez
Summary: According to the currently accepted model in cosmology, our universe is made up of 5% of ordinary matter, 25% cold dark matter, and 70% dark energy. But what kind of entities are dark matter and dark energy? This chapter asks what the evidence for these entities is and which rival theories are currently available. This provides with an opportunity to explore a well-known philosophical problem known as under-determination of theory by evidence.Comment: This Chapter could serve as an introduction to contemporary cosmology and particle physics or as an example to illustrate the problem of under-determination of theory by evidence. The chapter looks at alternative theories that explain the same experimental evidence without recourse to the hypothesis of dark matter and dark energy and discusses the rationale for choosing between rival research programs. Like the rest of the chapters in this book, it is a reading recommendable for undergraduate students. It is recommended to read it after Chapter 2 of the same book.
Massimi, Michela, Duncan Pritchard. What is this thing called science?2014, in M. Massimi (ed.), Philosophy and the Sciences for Everyone. Routledge-
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Added by: Laura Jimenez
Summary: This chapter offers a general introduction to philosophy of science. The first part of the chapter takes the reader through the famous relativist debate about Galileo and Cardinal Bellarmine. Several important questions on the topic are explored, such as what makes scientific knowledge special compared with other kinds of knowledge or the importance of demarcating science from non-science. Finally, the chapters gives an overview on how philosophers such as Popper, Duhem, Quine and Kuhn came to answer these questions.Comment: This chapter could be used as in introductory reading to review the nature of scientific knowledge and the most important debates about the scientific method. It is recommendable for undergraduate courses in philosophy of science. No previous knowledge of the field is needed in order to understand the content. The chapter is an introduction to the rest of the book Philosophy and the Sciences for Everyone. Some discussions explored here, such as the problem of underdetermination or Tomas Kuhn's view of scientific knowledge are central to the following chapters in philosophy of cosmology.
Massimi, Michela. Structural Realism: A Neo-Kantian Perspective2010, In Alisa Bokulich & Peter Bokulich (eds.), Scientific Structuralism. Springer Science+Business Media. pp. 1-23.-
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Added by: Laura Jimenez
Introduction: Structural realism was born in the attempt to reach a compromise between a realist argument and an antirealist one, namely the 'no miracle' argument and the 'pessimistic meta-induction', respectively. In recent years, John Worrall has drawn attention to an epistemological version of structural realism, which he traces back to Henri Poincaré. French and Ladyman, on the other hand, have urged a metaphysical or ontic structural realism, which offers a 'reconceptualisation of ontology, at the most basic metaphysical level, which effects a shift from objects to structures.' French and Ladyman want to maintain the distance from neo-Kantianism and detach metaphysical structural realism from neo-Kantian epistemology so as to do justice to the realist's demand for mind-independence. This manoeuvre raises, however, some difficulties that have been at the centre of a recent ongoing debate: can we really 'dissolve' entities into mathematical structures? How can we even conceive of structural relations without relata? In this paper the author offers a diagnosis of the current standoff within structural realism between the epistemological and the metaphysical variant, by drawing attention to some important assumptions underlying the structural realist programme, and to their philosophical sources. It is the heterogeneity of these sources - she suggests - that is mainly responsible for the current stand-off within structural realism.Comment: In this paper the author gives an excellent overview of the philosophical sources of structural realism: Poincaré, Cassier and Russell. The paper also explains with clarity the Newman problem and reviews the Fresnel-Maxwell case. The chapter serves as a good introduction to the topic of Structural Realism. It serves as well as a good introduction to the rest of the chapters present in the same book. This reading is best suited for courses in philosophy of science.
Massimi, Michela. Saving Unobservable Phenomena2007, British Journal of Philosophy of Science 58(2): 235-262.-
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Added by: Laura Jimenez
Abstract: In this paper the author argues -against van Fraassen's constructive empiricism-that the practice of saving phenomena is much broader than usually thought, and includes unobservable phenomena as well as observable ones. Her argument turns on the distinction between data and phenomena: She discusses how unobservable phenomena manifest themselves in data models and how theoretical models able to save them are chosen. She presents a paradigmatic case study taken from the history of particle physics to illustrate her argument. The first aim of this paper is to draw attention to the experimental practice of saving unobservable phenomena, which philosophers have overlooked for too long. The second aim is to explore some far-reaching implications this practice may have for the debate on scientific realism and constructive empiricism.Comment: This article is appropriate for studying the relationship between theoretical models and data models, as well as the scientific practice of saving unobservable phenomena. For a better understanding of this article, it could be really useful to have a previous basic knowledge on Bas van Fraassen's constructive empiricism. The article is appropriate for postgraduate courses in philosophy of science. It is especially interesting for those interested in theoretical models in particle physics.
Massimi, Michela. Three tales of scientific success2016, Philosophy of Science 83(5): 757-767.-
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Added by: Laura Jimenez
Abstract: Success-to-truth inferences have been the realist stronghold for long time. Scientific success is the parameter by which realists claim to discern approximately true theories from false ones. But scientific success needs be probed a bit deeper. In this paper, the author tells three tales of scientific success, by considering in turn success from nowhere, success from here now, and success from within. She argues for a suitable version of success from within that can do justice to the historically situated nature of our scientific knowledge. The outcome is a new way of thinking about success-to-truth inferences along perspectivalist lines.Comment: This paper examines scientific success as something relative to perspectival standpoints. The author analyses three possible approaches to a comparative notion of success. This reading could be really useful for postgraduate students in philosophy of science. It is recommendable that students have some previous knowledge about the continuity between Fresnel's and Maxwell's theory of light.
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Longino, Helen. Can there be a feminist science?
1987, Hypatia 2(3): 51-64.
Comment: An original work that introduces philosophy of science to feminism. Could serve as further reading for a course on both scientific methodology and social constructivism. It is an easy reading but because highly specialized. I would recommend it for postgraduate courses.