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Sarukkai, Sundar. What is science?
2012, National Book Trust, India.
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Added by: Laura Jimenez
Summary: This book serves as an excellent introduction to Indian philosophy from the standpoint of the Nyãya-Vaisesika worldview. The book is divided into six chapters: (i) Introduction; (ii) Doubt (including sections like "Types of Doubt" and "Limits of Doubt"); (iii) Indian Logic (in which Dignaga, Dharmakïrti, and a "Summary of Themes in Indian Logic Relevant to Philosophy of Science" are discussed); (iv) Logic in Science: The Western Way (dealing, among other things, with induction, deduction, and laws and counterfactuals); (v) Science in Logic: The Indian Way? ; and (vi) Knowledge, Truth and Language (including sections with titles like the Pramäna Theory, Truth in Western and Indian Philosophies and Science, Effability, and Bhartrhai).

Comment: The book is recommendable, not only as an introduction to significant and basic themes in Indian philosophy, but also for insightful details in explaining several complex ideas in science and philosophy and for a clear explication of the Indian contribution to discussions on them. Could be suitable for both undergratuates and postgraduates.

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Jaeger,Lydia. Against Physicalism-plus-God
2012, Faith and Philosophy , 29, 295-312
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Added by: Laura Jimenez
Abstract: It is often assumed that contemporary physics is more hospitable to divine action (and human freedom) than classical mechanics. The article criticizes this assumption on the grounds of both physics and theology. Most currently discussed models of divine action do not challenge the physicalist assumption that physics provides a true and complete description of nature's causal web. Thus they resemble physicalism-plus-God. Taking up suggestions from Herman Dooyeweerd and Henri Blocher, I propose an alternative framework for divine action in the world. It takes creation as the starting-point to understand the world and leads to a non-reductionist, multidimensional picture of reality

Comment: Good article for undergraduate students. It is valuable for studying the relation between science and divinity.

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Emery, Nina. Chance, Possibility and explanation
2015, The British Journal for the Philosophy of Science 0(2015): 1–64.
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Added by: Laura Jimenez
Summary: In this paper the author argues against the common and influential view that non-trivial chances arise only when the fundamental laws are indeterministic. The problem with this view, she claims, is not that it conflicts with some antecedently plausible metaphysics of chance or that it fails to capture our everyday use of 'chance' and related terms, but rather that it is unstable. Any reason for adopting the position that non-trivial chances arise only when the fundamental laws are indeterministic is also a reason for adopting a much stronger, and far less attractive, position. Emery suggests an alternative account, according to which chances are probabilities that play a certain explanatory role: they are probabilities that explain associated frequencies.

Comment: This could serve as a secondary reading for those studying metaphysic theories of chance. Previous background in metaphysics is needed. The paper is recommended for postgraduate students.

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Kochiras, Hilarie. Belief Contexts and Epistemic possibility
2006, Principia 10(1): 1-20.
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Added by: Laura Jimenez
Abstract: Although epistemic possibility figures in several debates, those debates have had relatively little contact with one another. G. E. Moore focused squarely upon analyzing epistemic uses of the phrase, 'It's possible that p', and in doing so he made two fundamental assumptions. First, he assumed that epistemic possibility statements always express the epistemic position of a community, as opposed to that of an individual speaker. Second, he assumed that all epistemic uses of 'It's possible that p' are analyzable in terms of knowledge, not belief. A number of later theorists, including Keith DeRose, provide alternative accounts of epistemic possibility, while retaining Moore's two assumptions. Neither assumption has been explicitly challenged, but Jaakko Hintikka's analysis provides a basis for doing so. Drawing upon Hintikka's analysis, I argue that some epistemic possibility statements express only the speaker's individual epistemic state, and that contra DeRose, they are not degenerate community statements but a class in their own right. I further argue that some linguistic contexts are belief- rather than knowledge-based, and in such contexts, what is possible for a speaker depends not upon what she knows, but upon what she believes.

Comment: Useful as a further reading for postgraduate courses in epistemology. Previous knowledge of the Moorean account and David Lewis' work on shifting contexts is required for a better understanding of this paper.

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Yaneva, Dominika. What is Science? Methodological Pitfalls Underlying the Empirical Exploration of Scientific Knowledge
2007, Journal for General Philosophy of Science / Zeitschrift für Allgemeine Wissenschaftstheorie 37(2): 333 - 353.
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Abstract: The validity of three premises, set as foundational pillars of modern sociological approach to science, is contested, namely: (i) the postulate, stating that science is devoid of whatever generis specifical; (ii) it is liable to the usual empirical study; (iii) the practicing scientist's self-reflexive judgements must be disbelieved and rejected. Contrariwise, the ignored so far quaint nature of knowledge, escaping even from the elementary empirical treating - discernment and observation - is revealed and demonstrated. This peculiar nature requires, accordingly, a specific meta-cognitive dealing for positing it as 'empirical object', unfortunately missed still by the Strong Programme. The inadequate approach adopted led to a substitution of 'scientific' for common knowledge. The tacit thus far alternative, setting the foundations of meta-science, is suggested.

Comment: Valuable article for both philosophy of science and epistemology courses. Could be used as further reading for postgraduates who want to research topics such as the relation between science and meta-science.

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Massimi, Michela. Philosophy and the sciences after Kant
2009, Royal Institute of Philosophy Supplement 84(65): 275.
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Added by: Laura Jimenez
Summary: In this article Massimi discusses the important role that history and philosophy of science plays or ought to play within philosophy. The aim of the paper is to offer a historical reconstruction and a possible diagnosis of why the long marriage between philosophy and the sciences was eventually wrong after Kant. Massimi examines Kant's view on philosophy and the sciences, from his early scientific writings to the development of critical philosophy and the pressing epistemological he felt the need to address in response to the sciences of his time.

Comment: Really useful as an historical overview of the relation between history and philosophy of science and mainstream philosophy. It is also useful for introducing students to Kant's philosophy of science. It is an easy reading recommended for undergraduates.

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Okasha, Samir. Experiment, observation and the confirmation of laws
2011, Analysis 71(2): 222-232.
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Added by: Laura Jimenez
Summary: It is customary to distinguish experimental from purely observational sciences. The former include physics and molecular biology, the latter astronomy and palaeontology. Surprisingly, mainstream philosophy of science has had rather little to say about the observational/experimental distinction. For example, discussions of confirmation usually invoke a notion of 'evidence', to be contrasted with 'theory' or 'hypothesis'; the aim is to understand how the evidence bears on the hypothesis. But whether this 'evidence' comes from observation or experiment generally plays no role in the discussion; this is true of both traditional and modern confirmation theories, Bayesian and non-Bayesian. In this article, the author sketches one possible explanation, by suggesting that observation and experiment will often differ in their confirmatory power. Based on a simple Bayesian analysis of confirmation, Okasha argues that universal generalizations (or 'laws') are typically easier to confirm by experimental intervention than by pure observation. This is not to say that observational confirmation of a law is impossible, which would be flatly untrue. But there is a general reason why confirmation will accrue more easily from experimental data, based on a simple though oft-neglected feature of Bayesian conditionalization.

Comment: Previous knowledge of Bayesian conditioning might be needed. The article is suitable for postgraduate courses in philosophy of science focusing in the distinction between observational and experimental science.

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Okasha, Samir. Philosophy of Science: A very short introduction
2002, Oxford University Press.
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Added by: Laura Jimenez
Back Matter: What is science? Is there a real difference between science and myth? Is science objective? Can science explain everything? This Very Short Introduction provides a concise overview of the main themes of contemporary philosophy of science. Beginning with a short history of science to set the scene, Samir Okasha goes on to investigate the nature of scientific reasoning, scientific explanation, revolutions in science, and theories such as realism and anti-realism. He also looks at philosophical issues in particular sciences, including the problem of classification in biology, and the nature of space and time in physics. The final chapter touches on the conflicts between science and religion, and explores whether science is ultimately a good thing.

Comment: The book is extremely readable and clear. It is perfect as an introduction for undergraduate students to philosophy of science. It offers an overview of the most important topics of the field including philosophical problems in biology, physics, and linguistics.

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Ruetsche,Laura. Interpreting Quantum Theories: The art of the possible
2011, Oxford University Press.
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Added by: Laura Jimenez
Publisher's Note: Traditionally, philosophers of quantum mechanics have addressed exceedingly simple systems: a pair of electrons in an entangled state, or an atom and a cat in Dr. Schrodinger's diabolical device. But recently, much more complicated systems, such as quantum fields and the infinite systems at the thermodynamic limit of quantum statistical mechanics, have attracted, and repaid, philosophical attention. Interpreting Quantum Theories has three entangled aims. The first is to guide those familiar with the philosophy of ordinary QM into the philosophy of 'QM infinity', by presenting accessible introductions to relevant technical notions and the foundational questions they frame. The second aim is to develop and defend answers to some of those questions. Does quantum field theory demand or deserve a particle ontology? How (if at all) are different states of broken symmetry different? And what is the proper role of idealizations in working physics? The third aim is to highlight ties between the foundational investigation of QM infinity and philosophy more broadly construed, in particular by using the interpretive problems discussed to motivate new ways to think about the nature of physical possibility and the problem of scientific realism.

Comment: Really interesting book for postgraduate courses involving the study of interpretative theories of Quantum Mechanics. The argument is focused on the quantum theory of systems with infinitely many degrees of freedom. The philosophical approach is defended through careful attention to scientific details.

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Hesse, Mary. Models in Physics
1953, British Journal for the Philosophy of Science 4(15): 198-214.
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Added by: Laura Jimenez
Summary: In this article Hesse defends the idea that scientific theories are hypothetico-deductive in form. She examines this hypothetico-deductive method by considering some examples from nineteenth-century mathematical physics. By means of these examples she brings out two points about scientific hypothesis. The first is that mathematical formalisms, when used as hypotheses in the description of physical phenomena, may function like the mechanical models of an earlier stage in physics, without having in themselves any mechanical or other physical interpret. The second point is that most physicists do not regard models as literal descriptions of nature, but as standing in a relation of analogy to nature.

Comment: A really good paper about models in science, mathematical formalism and hypothesis. Highly recomended for postgraduates studying philosophy of physics, although it could also be readable by undergraduates (last years) with previous knowledge of scientific modelling.

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