Material objects persist through time and survive change. How do they manage to do so? What are the underlying facts of persistence? Do objects persist by being "wholly present" at all moments of time at which they exist? Or do they persist by having distinct "temporal segments" confined to the corresponding times? Are objects three-dimensional entities extended in space, but not in time? Or are they four-dimensional spacetime "worms"? These are matters of intense debate, which is now driven by concerns about two major issues in fundamental ontology: parthood and location. It is in this context that broadly empirical considerations are increasingly brought to bear on the debate about persistence.
Persistence and Spacetime pursues this empirically based approach to the questions. Yuri Balashov begins by setting out major rival views of persistence -- endurance, perdurance, and exdurance -- in a spacetime framework and proceeds to investigate the implications of Einstein's theory of relativity for the debate about persistence. His overall conclusion -- that relativistic considerations favour four-dimensionalism over three-dimensionalism -- is hardly surprising. It is, however, anything but trivial. Contrary to a common misconception, there is no straightforward argument from relativity to four-dimensionalism. The issues involved are complex, and the debate is closely entangled with a number of other philosophical disputes, including those about the nature and ontology of time, parts and wholes, material constitution, causation and properties, and vagueness.

This comprehensive anthology draws together writings by leading philosophers on the philosophy of science. Each section is prefaced by an introductory essay from the editors, guiding students gently into the topic. Accessible and wide-ranging, the text draws on both contemporary and twentieth century sources.
The readings are designed to complement Alex Rosenberg's textbook, Philosophy of Science: A Contemporary Introduction (Routledge 2000), but can also serve as a stand-alone volume in any philosophy of science course.
Includes readings from the following leading philosophers: Achinstein, Anderson, Bloor, Earman, Feyerabend, Gutting, Hanson, Hempel, Kitcher, Kuhn, Laudan, Leplin, Mackie, McMullin, Nagel, Popper, Quine, Rosenberg, Russell, Salmon, Schlick, Shapere, Van Fraassen.

This engaging volume offers a selection of the best contributions by Russian historians and philosophers of science to the Einstein Studies industry.

Material objects persist through time and survive change. How do they manage to do so? What are the underlying facts of persistence? Do objects persist by being "wholly present" at all moments of time at which they exist? Or do they persist by having distinct "temporal segments" confined to the corresponding times? Are objects three-dimensional entities extended in space, but not in time? Or are they four-dimensional spacetime "worms"? These are matters of intense debate, which is now driven by concerns about two major issues in fundamental ontology: parthood and location. It is in this context that broadly empirical considerations are increasingly brought to bear on the debate about persistence. Persistence and Spacetime pursues this empirically based approach to the questions. Yuri Balashov begins by setting out major rival views of persistence - endurance, perdurance, and exdurance - in a spacetime framework and proceeds to investigate the implications of Einstein's theory of relativity for the debate about persistence. His overall conclusion - that relativistic considerations favour four-dimensionalism over three-dimensionalism - is hardly surprising. It is, however, anything but trivial. Contrary to a common misconception, there is no straightforward argument from relativity to four-dimensionalism. The issues involved are complex, and the debate is closely entangled with a number of other philosophical disputes, including those about the nature and ontology of time, parts and wholes, material constitution, causation and properties, and vagueness.

This comprehensive anthology draws together writings by leading philosophers on the philosophy of science. Each section is prefaced by an introductory essay from the editors, guiding students gently into the topic. Accessible and wide-ranging, the text draws on both contemporary and twentieth century sources.
The readings are designed to complement Alex Rosenberg's textbook, Philosophy of Science: A Contemporary Introduction (Routledge 2000), but can also serve as a stand-alone volume in any philosophy of science course.
Includes readings from the following leading philosophers: Achinstein, Anderson, Bloor, Earman, Feyerabend, Gutting, Hanson, Hempel, Kitcher, Kuhn, Laudan, Leplin, Mackie, McMullin, Nagel, Popper, Quine, Rosenberg, Russell, Salmon, Schlick, Shapere, Van Fraassen.