Event (relativity): Difference between revisions
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In [[physics]], and in particular [[Theory of relativity|relativity]], an '''event''' indicates a physical situation or occurrence, located at a specific point in [[spacetime|space and time]]. For example, a glass breaking on the floor is an event; it occurs at |
In [[physics]], and in particular [[Theory of relativity|relativity]], an '''event''' indicates a physical situation or occurrence, located at a specific point in [[spacetime|space and time]]. For example, a glass breaking on the floor is an event; it occurs at a unique place and a unique time, in a given frame of reference.<ref>A.P. French (1968), Special Relativity, |
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MIT Introductory Physics Series, CRC Press, ISBN 0-7487-6422-4, p 86</ref> |
MIT Introductory Physics Series, CRC Press, ISBN 0-7487-6422-4, p 86</ref> |
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Revision as of 15:50, 13 December 2014
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In physics, and in particular relativity, an event indicates a physical situation or occurrence, located at a specific point in space and time. For example, a glass breaking on the floor is an event; it occurs at a unique place and a unique time, in a given frame of reference.[1]
Strictly speaking, the notion of an event is an idealization, in the sense that it specifies a definite time and place, whereas any actual event is bound to have a finite extent, both in time and in space.[2] One of the goals of relativity is to specify the possibility of one event influencing another. This is done by means of the metric tensor, which allows for determining the causal structure of spacetime. The difference (or interval) between two events can be classified into spacelike, lightlike and timelike separations. Only if two events are separated by a lightlike or timelike interval can one influence the other.