Time and SpaceThe first edition (2001) of this title quickly established itself on courses on the philosophy of time and space. This fully revised and expanded new edition sees the addition of chapters on Zeno's paradoxes, speculative contemporary developments in physics, and dynamic time, making the second edition, once again, unrivalled in its breadth of coverage. Surveying both historical debates and the ideas of modern physics, Barry Dainton evaluates the central arguments in a clear and unintimidating way and is careful to keep the conceptual issues throughout comprehensible to students with little scientific or mathematical training. The book makes the philosophy of space and time accessible for anyone trying to come to grips with the complexities of this challenging subject. With over 100 original line illustrations and a full glossary of terms, the book has the requirements of students firmly in sight and will continue to serve as an essential textbook for philosophy of time and space courses. |
From inside the book
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... location, it is more properly viewed as a point in space and time, i.e. as a "spacetime point". The substantivalist takes the totality of these spacetime points to be a real entity: "spacetime". Figure 1.2 shows a small portion of a ...
... location, it is more properly viewed as a point in space and time, i.e. as a "spacetime point". The substantivalist takes the totality of these spacetime points to be a real entity: "spacetime". Figure 1.2 shows a small portion of a ...
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... locations; if motion consists instead of an object changing its spatial relations to other objects, what is to prevent an object from moving ever further from other objects? And so it proceeds. But as we shall see in Chapter 13, the ...
... locations; if motion consists instead of an object changing its spatial relations to other objects, what is to prevent an object from moving ever further from other objects? And so it proceeds. But as we shall see in Chapter 13, the ...
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... locations (places), none of which is special; time consists of a linear one-dimensional series of coexisting locations (times), none of which is special. Talk of "coexisting" times (or events) in this context must be properly understood ...
... locations (places), none of which is special; time consists of a linear one-dimensional series of coexisting locations (times), none of which is special. Talk of "coexisting" times (or events) in this context must be properly understood ...
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... locations. As a result there are no essential differences between spatial variation at a time and the B- theorist's account of change over time: in both cases we have an object possessing different properties at different locations in a ...
... locations. As a result there are no essential differences between spatial variation at a time and the B- theorist's account of change over time: in both cases we have an object possessing different properties at different locations in a ...
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... locations somewhere along the static B-series. 2. A-properties are intrinsic properties of events. 3. A-properties are transitory: every event changes from being future to present and then past. Here (as elsewhere) I use the term "event ...
... locations somewhere along the static B-series. 2. A-properties are intrinsic properties of events. 3. A-properties are transitory: every event changes from being future to present and then past. Here (as elsewhere) I use the term "event ...
Contents
Tensed time | |
Dynamic time | |
Time and consciousness | |
Tangible space | |
Spatial antirealism | |
Zeno and the continuum I | |
Zeno and the continuum II | |
Special relativity | |
Relativity and reality | |
General relativity | |
Spacetime metaphysics | |
Time travel | |
Conceptions of void | |
the classical debate | |
Absolute motion | |
Motion in spacetime | |
Curved | |
Strings | |
Glossary | |
Web resources | |
Index | |
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Common terms and phrases
absolute space argue argument asymmetry at-at atoms B-theorist B-theory big bang Block theorist causal claim conception contents continuum curvature curved dark matter Descartes dimension direction discrete space distance relations distinction doctrine dynamic earlier Einstein entities Euclidean Euclidean space exist experience explain fact Figure finite Flatland force four-dimensional future galaxies geodesies geometry gravity Growing Block hence hole hyperplanes inertial effects infinite number interval Leibniz light locations material objects mathematical matter McTaggart metaphysical metrical Minkowski spacetime motion moving neo-Newtonian Newton Newtonian nomologically observable occur Oxford paradox particles past paths Philosophy physical plane position possess present Presentist problem properties quantum theory question reason region relationist relative rotating sense simultaneity sort spacetime points spatial relations speed string string theory structure substantival space substantivalist suppose surface temporal tensed tenseless things three-dimensional three-dimensional space true truthmakers two-dimensional universe velocity worldlines Zeno Zeno's Zeno's paradoxes