Analysis of information sources in references of the Wikipedia article "시간" in Korean language version.
Time is what clocks measure. We use time to place events in sequence one after the other, and we use time to compare how long events last... Among philosophers of physics, the most popular short answer to the question "What is physical time?" is that it is not a substance or object but rather a special system of relations among instantaneous events. This working definition is offered by Adolf Grünbaum who applies the contemporary mathematical theory of continuity to physical processes, and he says time is a linear continuum of instants and is a distinguished one-dimensional sub-space of four-dimensional spacetime.* “Dictionary.com Unabridged, based on Random House Dictionary”. 2010. 2012년 3월 5일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
1. the system of those sequential relations that any event has to any other, as past, present, or future; indefinite and continuous duration regarded as that in which events succeed one another.... 3. (sometimes initial capital letter) a system or method of measuring or reckoning the passage of time: mean time; apparent time; Greenwich Time. 4. a limited period or interval, as between two successive events: a long time.... 14. a particular or definite point in time, as indicated by a clock: What time is it? ... 18. an indefinite, frequently prolonged period or duration in the future: Time will tell if what we have done here today was right.* Ivey, Donald G.; Hume, J.N.P. (1974). 《Physics》 1. Ronald Press. 65쪽. 2021년 4월 14일에 원본 문서에서 보존된 문서. 2020년 5월 7일에 확인함.
Our operational definition of time is that time is what clocks measure.
1.indefinite, unlimited duration in which things are considered as happening in the past, present, or future; every moment there has ever been or ever will be… a system of measuring duration 2.the period between two events or during which something exists, happens, or acts; measured or measurable interval* “The American Heritage Stedman's Medical Dictionary”. 2002. 2012년 3월 5일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
A duration or relation of events expressed in terms of past, present, and future, and measured in units such as minutes, hours, days, months, or years.* “Collins Language.com”. HarperCollins. 2011. 2011년 10월 2일에 원본 문서에서 보존된 문서. 2011년 12월 18일에 확인함.
1. The continuous passage of existence in which events pass from a state of potentiality in the future, through the present, to a state of finality in the past. 2. physics a quantity measuring duration, usually with reference to a periodic process such as the rotation of the earth or the frequency of electromagnetic radiation emitted from certain atoms. In classical mechanics, time is absolute in the sense that the time of an event is independent of the observer. According to the theory of relativity it depends on the observer's frame of reference. Time is considered as a fourth coordinate required, along with three spatial coordinates, to specify an event.* “The American Heritage Science Dictionary @dictionary.com”. 2002. 2012년 3월 5일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
1. A continuous, measurable quantity in which events occur in a sequence proceeding from the past through the present to the future. 2a. An interval separating two points of this quantity; a duration. 2b. A system or reference frame in which such intervals are measured or such quantities are calculated.* “Eric Weisstein's World of Science”. 2007. 2017년 11월 29일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
A quantity used to specify the order in which events occurred and measure the amount by which one event preceded or followed another. In special relativity, ct (where c is the speed of light and t is time), plays the role of a fourth dimension.
The indefinite continued progress of existence and events in the past, present, and future regarded as a whole
1.indefinite, unlimited duration in which things are considered as happening in the past, present, or future; every moment there has ever been or ever will be… a system of measuring duration 2.the period between two events or during which something exists, happens, or acts; measured or measurable interval* “The American Heritage Stedman's Medical Dictionary”. 2002. 2012년 3월 5일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
A duration or relation of events expressed in terms of past, present, and future, and measured in units such as minutes, hours, days, months, or years.* “Collins Language.com”. HarperCollins. 2011. 2011년 10월 2일에 원본 문서에서 보존된 문서. 2011년 12월 18일에 확인함.
1. The continuous passage of existence in which events pass from a state of potentiality in the future, through the present, to a state of finality in the past. 2. physics a quantity measuring duration, usually with reference to a periodic process such as the rotation of the earth or the frequency of electromagnetic radiation emitted from certain atoms. In classical mechanics, time is absolute in the sense that the time of an event is independent of the observer. According to the theory of relativity it depends on the observer's frame of reference. Time is considered as a fourth coordinate required, along with three spatial coordinates, to specify an event.* “The American Heritage Science Dictionary @dictionary.com”. 2002. 2012년 3월 5일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
1. A continuous, measurable quantity in which events occur in a sequence proceeding from the past through the present to the future. 2a. An interval separating two points of this quantity; a duration. 2b. A system or reference frame in which such intervals are measured or such quantities are calculated.* “Eric Weisstein's World of Science”. 2007. 2017년 11월 29일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
A quantity used to specify the order in which events occurred and measure the amount by which one event preceded or followed another. In special relativity, ct (where c is the speed of light and t is time), plays the role of a fourth dimension.
Time is what clocks measure. We use time to place events in sequence one after the other, and we use time to compare how long events last... Among philosophers of physics, the most popular short answer to the question "What is physical time?" is that it is not a substance or object but rather a special system of relations among instantaneous events. This working definition is offered by Adolf Grünbaum who applies the contemporary mathematical theory of continuity to physical processes, and he says time is a linear continuum of instants and is a distinguished one-dimensional sub-space of four-dimensional spacetime.* “Dictionary.com Unabridged, based on Random House Dictionary”. 2010. 2012년 3월 5일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
1. the system of those sequential relations that any event has to any other, as past, present, or future; indefinite and continuous duration regarded as that in which events succeed one another.... 3. (sometimes initial capital letter) a system or method of measuring or reckoning the passage of time: mean time; apparent time; Greenwich Time. 4. a limited period or interval, as between two successive events: a long time.... 14. a particular or definite point in time, as indicated by a clock: What time is it? ... 18. an indefinite, frequently prolonged period or duration in the future: Time will tell if what we have done here today was right.* Ivey, Donald G.; Hume, J.N.P. (1974). 《Physics》 1. Ronald Press. 65쪽. 2021년 4월 14일에 원본 문서에서 보존된 문서. 2020년 5월 7일에 확인함.
Our operational definition of time is that time is what clocks measure.
Time is what clocks measure. We use time to place events in sequence one after the other, and we use time to compare how long events last... Among philosophers of physics, the most popular short answer to the question "What is physical time?" is that it is not a substance or object but rather a special system of relations among instantaneous events. This working definition is offered by Adolf Grünbaum who applies the contemporary mathematical theory of continuity to physical processes, and he says time is a linear continuum of instants and is a distinguished one-dimensional sub-space of four-dimensional spacetime.* “Dictionary.com Unabridged, based on Random House Dictionary”. 2010. 2012년 3월 5일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
1. the system of those sequential relations that any event has to any other, as past, present, or future; indefinite and continuous duration regarded as that in which events succeed one another.... 3. (sometimes initial capital letter) a system or method of measuring or reckoning the passage of time: mean time; apparent time; Greenwich Time. 4. a limited period or interval, as between two successive events: a long time.... 14. a particular or definite point in time, as indicated by a clock: What time is it? ... 18. an indefinite, frequently prolonged period or duration in the future: Time will tell if what we have done here today was right.* Ivey, Donald G.; Hume, J.N.P. (1974). 《Physics》 1. Ronald Press. 65쪽. 2021년 4월 14일에 원본 문서에서 보존된 문서. 2020년 5월 7일에 확인함.
Our operational definition of time is that time is what clocks measure.
First of all, Leibniz finds the idea that space and time might be substances or substance-like absurd (see, for example, "Correspondence with Clarke," Leibniz's Fourth Paper, §8ff). In short, an empty space would be a substance with no properties; it will be a substance that even God cannot modify or destroy.... That is, space and time are internal or intrinsic features of the complete concepts of things, not extrinsic.... Leibniz's view has two major implications. First, there is no absolute location in either space or time; location is always the situation of an object or event relative to other objects and events. Second, space and time are not in themselves real (that is, not substances). Space and time are, rather, ideal. Space and time are just metaphysically illegitimate ways of perceiving certain virtual relations between substances. They are phenomena or, strictly speaking, illusions (although they are illusions that are well-founded upon the internal properties of substances).... It is sometimes convenient to think of space and time as something "out there," over and above the entities and their relations to each other, but this convenience must not be confused with reality. Space is nothing but the order of co-existent objects; time nothing but the order of successive events. This is usually called a relational theory of space and time.
The indefinite continued progress of existence and events in the past, present, and future regarded as a whole
1.indefinite, unlimited duration in which things are considered as happening in the past, present, or future; every moment there has ever been or ever will be… a system of measuring duration 2.the period between two events or during which something exists, happens, or acts; measured or measurable interval* “The American Heritage Stedman's Medical Dictionary”. 2002. 2012년 3월 5일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
A duration or relation of events expressed in terms of past, present, and future, and measured in units such as minutes, hours, days, months, or years.* “Collins Language.com”. HarperCollins. 2011. 2011년 10월 2일에 원본 문서에서 보존된 문서. 2011년 12월 18일에 확인함.
1. The continuous passage of existence in which events pass from a state of potentiality in the future, through the present, to a state of finality in the past. 2. physics a quantity measuring duration, usually with reference to a periodic process such as the rotation of the earth or the frequency of electromagnetic radiation emitted from certain atoms. In classical mechanics, time is absolute in the sense that the time of an event is independent of the observer. According to the theory of relativity it depends on the observer's frame of reference. Time is considered as a fourth coordinate required, along with three spatial coordinates, to specify an event.* “The American Heritage Science Dictionary @dictionary.com”. 2002. 2012년 3월 5일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
1. A continuous, measurable quantity in which events occur in a sequence proceeding from the past through the present to the future. 2a. An interval separating two points of this quantity; a duration. 2b. A system or reference frame in which such intervals are measured or such quantities are calculated.* “Eric Weisstein's World of Science”. 2007. 2017년 11월 29일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
A quantity used to specify the order in which events occurred and measure the amount by which one event preceded or followed another. In special relativity, ct (where c is the speed of light and t is time), plays the role of a fourth dimension.
Time is what clocks measure. We use time to place events in sequence one after the other, and we use time to compare how long events last... Among philosophers of physics, the most popular short answer to the question "What is physical time?" is that it is not a substance or object but rather a special system of relations among instantaneous events. This working definition is offered by Adolf Grünbaum who applies the contemporary mathematical theory of continuity to physical processes, and he says time is a linear continuum of instants and is a distinguished one-dimensional sub-space of four-dimensional spacetime.* “Dictionary.com Unabridged, based on Random House Dictionary”. 2010. 2012년 3월 5일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
1. the system of those sequential relations that any event has to any other, as past, present, or future; indefinite and continuous duration regarded as that in which events succeed one another.... 3. (sometimes initial capital letter) a system or method of measuring or reckoning the passage of time: mean time; apparent time; Greenwich Time. 4. a limited period or interval, as between two successive events: a long time.... 14. a particular or definite point in time, as indicated by a clock: What time is it? ... 18. an indefinite, frequently prolonged period or duration in the future: Time will tell if what we have done here today was right.* Ivey, Donald G.; Hume, J.N.P. (1974). 《Physics》 1. Ronald Press. 65쪽. 2021년 4월 14일에 원본 문서에서 보존된 문서. 2020년 5월 7일에 확인함.
Our operational definition of time is that time is what clocks measure.
First of all, Leibniz finds the idea that space and time might be substances or substance-like absurd (see, for example, "Correspondence with Clarke," Leibniz's Fourth Paper, §8ff). In short, an empty space would be a substance with no properties; it will be a substance that even God cannot modify or destroy.... That is, space and time are internal or intrinsic features of the complete concepts of things, not extrinsic.... Leibniz's view has two major implications. First, there is no absolute location in either space or time; location is always the situation of an object or event relative to other objects and events. Second, space and time are not in themselves real (that is, not substances). Space and time are, rather, ideal. Space and time are just metaphysically illegitimate ways of perceiving certain virtual relations between substances. They are phenomena or, strictly speaking, illusions (although they are illusions that are well-founded upon the internal properties of substances).... It is sometimes convenient to think of space and time as something "out there," over and above the entities and their relations to each other, but this convenience must not be confused with reality. Space is nothing but the order of co-existent objects; time nothing but the order of successive events. This is usually called a relational theory of space and time.
1.indefinite, unlimited duration in which things are considered as happening in the past, present, or future; every moment there has ever been or ever will be… a system of measuring duration 2.the period between two events or during which something exists, happens, or acts; measured or measurable interval* “The American Heritage Stedman's Medical Dictionary”. 2002. 2012년 3월 5일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
A duration or relation of events expressed in terms of past, present, and future, and measured in units such as minutes, hours, days, months, or years.* “Collins Language.com”. HarperCollins. 2011. 2011년 10월 2일에 원본 문서에서 보존된 문서. 2011년 12월 18일에 확인함.
1. The continuous passage of existence in which events pass from a state of potentiality in the future, through the present, to a state of finality in the past. 2. physics a quantity measuring duration, usually with reference to a periodic process such as the rotation of the earth or the frequency of electromagnetic radiation emitted from certain atoms. In classical mechanics, time is absolute in the sense that the time of an event is independent of the observer. According to the theory of relativity it depends on the observer's frame of reference. Time is considered as a fourth coordinate required, along with three spatial coordinates, to specify an event.* “The American Heritage Science Dictionary @dictionary.com”. 2002. 2012년 3월 5일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
1. A continuous, measurable quantity in which events occur in a sequence proceeding from the past through the present to the future. 2a. An interval separating two points of this quantity; a duration. 2b. A system or reference frame in which such intervals are measured or such quantities are calculated.* “Eric Weisstein's World of Science”. 2007. 2017년 11월 29일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
A quantity used to specify the order in which events occurred and measure the amount by which one event preceded or followed another. In special relativity, ct (where c is the speed of light and t is time), plays the role of a fourth dimension.
1.indefinite, unlimited duration in which things are considered as happening in the past, present, or future; every moment there has ever been or ever will be… a system of measuring duration 2.the period between two events or during which something exists, happens, or acts; measured or measurable interval* “The American Heritage Stedman's Medical Dictionary”. 2002. 2012년 3월 5일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
A duration or relation of events expressed in terms of past, present, and future, and measured in units such as minutes, hours, days, months, or years.* “Collins Language.com”. HarperCollins. 2011. 2011년 10월 2일에 원본 문서에서 보존된 문서. 2011년 12월 18일에 확인함.
1. The continuous passage of existence in which events pass from a state of potentiality in the future, through the present, to a state of finality in the past. 2. physics a quantity measuring duration, usually with reference to a periodic process such as the rotation of the earth or the frequency of electromagnetic radiation emitted from certain atoms. In classical mechanics, time is absolute in the sense that the time of an event is independent of the observer. According to the theory of relativity it depends on the observer's frame of reference. Time is considered as a fourth coordinate required, along with three spatial coordinates, to specify an event.* “The American Heritage Science Dictionary @dictionary.com”. 2002. 2012년 3월 5일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
1. A continuous, measurable quantity in which events occur in a sequence proceeding from the past through the present to the future. 2a. An interval separating two points of this quantity; a duration. 2b. A system or reference frame in which such intervals are measured or such quantities are calculated.* “Eric Weisstein's World of Science”. 2007. 2017년 11월 29일에 원본 문서에서 보존된 문서. 2011년 4월 9일에 확인함.
A quantity used to specify the order in which events occurred and measure the amount by which one event preceded or followed another. In special relativity, ct (where c is the speed of light and t is time), plays the role of a fourth dimension.
