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There is a time when there is a motion
Posted: Mon Dec 06, 2021 10:43 pm
by bahman
Consider a change in a system, A to B. A and B either lay on the same instant or in different instants. The change is timeless (simultaneous) or temporal in the first and second case respectively. There is no motion in the first case since A and B coexist timelessly. There is a motion in the second case. So for, the second case, we need a variable in which A and B can take place at different instants, ta and tb respectively. B comes after A so tb comes after ta also. This variable we call it time. Therefore, there is a time when there is a motion.
Re: There is a time when there is a motion
Posted: Sat Dec 11, 2021 10:18 am
by Age
bahman wrote: ↑Mon Dec 06, 2021 10:43 pm
Consider a change in a system, A to B. A and B either lay on the same instant or in different instants. The change is timeless (simultaneous) or temporal in the first and second case respectively. There is no motion in the first case since A and B coexist timelessly. There is a motion in the second case. So for, the second case, we need a variable in which A and B can take place at different instants, ta and tb respectively. B comes after A so tb comes after ta also. This variable we call it time. Therefore, there is a time when there is a motion.
Yes, very True.
And, that 'time' is called, 'ALL the time'.
Re: There is a time when there is a motion
Posted: Sat Dec 11, 2021 4:53 pm
by bahman
Age wrote: ↑Sat Dec 11, 2021 10:18 am
bahman wrote: ↑Mon Dec 06, 2021 10:43 pm
Consider a change in a system, A to B. A and B either lay on the same instant or in different instants. The change is timeless (simultaneous) or temporal in the first and second case respectively. There is no motion in the first case since A and B coexist timelessly. There is a motion in the second case. So for, the second case, we need a variable in which A and B can take place at different instants, ta and tb respectively. B comes after A so tb comes after ta also. This variable we call it time. Therefore, there is a time when there is a motion.
Yes, very True.
And, that 'time' is called, 'ALL the time'.
What do mean by the all the time?
Re: There is a time when there is a motion
Posted: Sun Dec 12, 2021 10:24 am
by Age
bahman wrote: ↑Sat Dec 11, 2021 4:53 pm
Age wrote: ↑Sat Dec 11, 2021 10:18 am
bahman wrote: ↑Mon Dec 06, 2021 10:43 pm
Consider a change in a system, A to B. A and B either lay on the same instant or in different instants. The change is timeless (simultaneous) or temporal in the first and second case respectively. There is no motion in the first case since A and B coexist timelessly. There is a motion in the second case. So for, the second case, we need a variable in which A and B can take place at different instants, ta and tb respectively. B comes after A so tb comes after ta also. This variable we call it time. Therefore, there is a time when there is a motion.
Yes, very True.
And, that 'time' is called, 'ALL the time'.
What do mean by the all the time?
ALWAYS.
Could 'all the time' mean ANY thing else?