Prometheus said:Huh?
There is greater motion through space and there is greater motion through time.
There is no such thing as greater motion through space-time, as there is only one rate of motion through space-time.
How can you say that there is no such thing as greater motion? or, what do you mean?
jcsd said:What I mean is that 'motion' (i.e. velcotiy) is reative, so it is impossible to order it in such a manner that is frame invariant.
jcsd said:Think of the twin paradox and how both twins observe each others clocks to be slowed.
Prometheus said:I still do not understand what you mean by motion. Do you mean motion through space or motion through space-time?
If we race, and I run faster than you, am I or am I not in greater motion than you? I do not understand your perspective.
Assuming all clocks are equal they could work out their relative velocities.OK. Think of a clock, and two observers observing the clock. How can they relate themselves to each other on the basis of observing some clock?
Prometheus said:You ask about the error in the measurement of the clock. I ask about the value of it.
As far as clocks are concerned, yours is an excellent example. Let us consider two observers, you and me. You body is in motion through space. Consider that chemical processes are going on within your body, metabolism, etc. My body is in motion through space, in the same way. They are not moving through space at the same rate of time. How is it relevant that we can use some objective third object to measure time? My rate of motion through time is different from your motion through time, as my body interacts with space in a manner different from yours. Using a light clock, or a mechanical clock, or watching the sun rise and set is very useful to create an objective time for us to share. However, how can you consider it completely applicable to either of us, let alone to both of us? Where is the effect of the interaction of space-time? If you are searching for a close approximation, as close as is possible given that you must use a clock, then I accept your example as close, forgiving the fact that you must use a clock.
If you use a clock as an objective way to relate your motion through space-time with mine, then you are ignoring the fact that each object has a unique relationship to space-time.
How can you compare two unique objects in space-time by relating them to a third, irrelevant object in space-time? What is the value of your comparsion. It does have value, I admit. Do you recognize its limitation?
jcsd said:If an object is in motion it means that it changes it's postion as I said earlier it doesn't mean to much in terms of spacetime, so I mean motion through space
jcsd said:No, because in your rest frame your speedis zero whilst mine is non-zero.
jcsd said:Assuming all clocks are equal they could work out their relative velocities.
wespe said:Say, we have two electrons stationary wrt each other.
wespe said:Can they not experience the same time, as measured by light clock?
what is motion through time tho'? dt/dt? (though the time component of the velcoity 4-vector can be thought of as dt/dT mutplied by c and relatvistic gamma where T is the proper time)Prometheus said:Are you saying that an object cannot be in motion through time. It seems that you deny that there is motion through time. How can you say that it doesn't mean much that there is motion through space-time? I think that this is a big point of disagreement between us.
By this standard, no two objects or people can ever have the same frame, and so any measurement is meaningless.
An impossible assumtption, in my opinion.
Do you consider that the speed of light is constant? If so, is it constant in space, in time, or in space-time?