That means : ' the effect of relativity ' is applying some ' external-force ' or ' external-energy ' to change the oscillation of the cesium(Cs) atom .
What is time??
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That means : ' the effect of relativity ' is applying some ' external-force ' or ' external-energy ' to change the oscillation of the cesium(Cs) atom .
How do you work that out?
Can the oscillation of a mass change on its own ? Unless some external-force or external-energy being applied to that mass .
And you're still missing the point: Depending on the observer.
Plus your comment "' the effect of relativity ' is applying some ' external-force ' or ' external-energy ' " does not equate to "some external-force or external-energy being applied to that mass".
According to which observer?
Source and Observer : " are they same or different ? "
If they were the same then how could I ask "which observer?"?
So, to the observer at source ; the oscillations remains unchanged .
Correct.
So , to the observer at source ; the oscillations of cesium(Cs) atom will remain unchanged .
So, to the observer at source : time is uniform .
Does relativity happen at the source ?
Pardon?
So, time is uniform at the source .
Once again: depending on the observer.
