- #36
Dale
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The English gets a little difficult here, but in the geometric view of spacetime we are not "moving" through time nor are we "moving" through space. We have some worldline which is fixed and unchanging in spacetime. That worldline may have different tangent vectors at different points along it, but there is not a red dot labeled "you are here" which slides along the worldline.Yuripe said:We are describing time as the one dimension of spacetime but you can see that it's a little different from the other dimensions. We're not free to stop in time or change direction of our movement in it as we can do in spatial dimensions.
The metric quoted earlier by DaleSpam works regardless of the direction of movement in time dimension and that's fine, but we don't observe such freedom in real world.
Sorry if that is confusing, it is a weird concept and the words are rather imprecise. In the geometric view we cannot have dt=0 along our worldline because our worldline is timelike. If it were spacelike then we could not have dx=0. Timelike and spacelike are frame invariant concepts.