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Den 20.07.2024 23:55, skrev Richard Hachel:
So: in an inertial system K, a clock C is in inertial motion.No, "To" is time in K. This is chronotropy.
t is the time in K.
A and B are two stationary, synchronous clocks in K.You want say, at To=To1
At t = t₁
CTo(A)=0
A B
--|---------------------|------> x
0 L
Clock A is showing t₁, clock C is adjacent to A and is set to zero.
At t = t₂At To2(B)=t(C)/sqrt(1-Vo²/c²)
C
A B
--|---------------------|------> x
0 L
Clock B is showing t₂, clock C is adjacent to B and is showing τYes.
Let L = 0.0001 light second = 29979 mYes
Let (t₂ - t₁) = T = 125 μsYes
v = L/T = 239833966.4 m/s = 0.8cYes
w = L/τYes
What kind of time is T ?T=To (observable time in the laboratory, time observable but not real mesured by two anisochronic clocks A and B).
What kind of speed is v ?Observable speed Vo.
What is τ ? (equation, value and type of time)Proper time of C (real time).
What kind of speed is w ?Real speed (Vr)
What is the physical significance of w?Vr=AB/τ
Can it say anything about the position of C at the time τ ?x = Vo.To = Vr.Tr = Vapp.Tapp
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