Explain Independent Continuum: Einstein's Theory

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The discussion centers on the concept of "Independent Continuum" as described in Einstein's Special and General Theory of Relativity. Participants clarify that in relativity, space and time are covariant entities, meaning observers may disagree on individual measurements of space and time but agree on their combined measurement, known as spacetime. The Lorentz transformations are essential for translating separate values of space and time into a unified perspective. Ultimately, the independence of time and space is challenged, as they are co-dependent in the context of relativity.

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  • Understanding of Einstein's Special and General Theory of Relativity
  • Familiarity with the concept of spacetime
  • Knowledge of Lorentz transformations
  • Basic grasp of time dilation and space contraction
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Students, physicists, and researchers interested in understanding the complexities of Einstein's theories, particularly those focusing on the interdependence of time and space in the context of relativity.

paradoxical67
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"Independent Continuum"

Can anybody please explain to me what this actually means. My understanding in very vague terms is that something is constant, with reference to Einstein's The Special and General Theory book, where he says that we often think of time (and space i think) as "independent continuums". Any help wil lbe appreciated. Peace.
 
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paradoxical67 said:
Can anybody please explain to me what this actually means. My understanding in very vague terms is that something is constant, with reference to Einstein's The Special and General Theory book, where he says that we often think of time (and space i think) as "independent continuums". Any help wil lbe appreciated. Peace.
With respect to relativity, it means that only an observer's view of space and time taken together make an independent continuum. In relativity, space and time are covariant entities, not invariant entities. That means that different observers do agree on the combined measurement of space and time but they do not agree on the separate measurements of space and time.
 
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hmm ok. When you speak of the combined values, is this due to the fact that as time dilates, space also contracts? So one would not notice the change..? :s
 
paradoxical67 said:
hmm ok. When you speak of the combined values, is this due to the fact that as time dilates, space also contracts? So one would not notice the change..? :s
Time dilation and space contraction are the consequences of the symmetry pattern of space and time.

You can translate the separate values of space and time into another form by using the Lorentz transformations. The form changes but the meaning is the same, each observer simply has a different perspective on this one, combined, reality called spacetime.
 
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Independent just means that an event can have any time assigned to it, and any spatial point as well. In general knowing a time tells you nothing about where, and vica versa. That's independence.
Regards,
Reilly Atkinson
 
reilly said:
Independent just means that an event can have any time assigned to it, and any spatial point as well. In general knowing a time tells you nothing about where, and vica versa. That's independence.
The whole point is that in relativity time and space are no longer independent but co-dependent. "Time is robbed of its independence", as Albert Einstein formulates it.
 
s

right ok. This is comlicated.

im going to stick to 'constants' for now. I am writing a research paper on special relativity, clearly i haven't understood a great deal!

Thanks for the help though guys, i semi understood what youre saying.
 
Basically I think the main thing to understand is that although different frames can disagree on the time interval \Delta t and the spatial distance \Delta x between any two events, they will always agree on the invariant spacetime interval c^2 \Delta t^2 - \Delta x^2
 
ok thanks.
 

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