Explore Relativity with Interactive Flash Diagrams

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SUMMARY

This discussion centers on Adam's creation of two interactive Flash diagrams that visualize concepts from relativity, inspired by Epstein's book "Relativity Visualized." The first diagram illustrates special relativity, while the second presents a 3D representation of gravitation as curved spacetime, requiring Flash 9. Participants note that Epstein's diagrams differ from standard Minkowski spacetime diagrams, which may limit their utility for advanced learners. A JSTOR review and a related forum thread are also referenced for further exploration.

PREREQUISITES
  • Understanding of special relativity concepts
  • Familiarity with spacetime diagrams
  • Basic knowledge of Flash animations
  • Awareness of Minkowski spacetime principles
NEXT STEPS
  • Explore advanced Minkowski spacetime diagrams
  • Learn about the implications of curved spacetime in general relativity
  • Investigate the use of Flash for educational animations
  • Review the JSTOR article on Epstein's work for deeper insights
USEFUL FOR

Students of physics, educators in relativity, and anyone interested in visualizing complex concepts in spacetime and gravitation.

A.T.
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Hello,

for those of you who liked Epsteins book "Relativity Visualized" and
his geometrical interpretation of relativity: I have made two
interactive space-eigentime diagrams in flash to play with:
A basic on showing mainly special relativity:
http://www.adamtoons.de/physics/relativity.swf
A 3D version showing gravitation as curved spacetime (needs flash 9):
http://www.adamtoons.de/physics/gravitation.swf
Comments and suggestions are welcome

Adam
 
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Nice visualizations.
It's been a while since I have looked at Epstein's book.

Just a word of warning [for those unfamiliar with spacetime diagrams]... Epstein's vivid diagrams are not the standard Minkowski spacetime diagrams, as seen in more advanced relativity books. While his diagrams are enlightening and may be sufficient for beginners, they are of limited use.

Here's a review via JSTOR
http://links.jstor.org/sici?sici=0024-094X(1984)17%3A4%3C299%3ARV%3E2.0.CO%3B2-0

Here's related thread on Epstein's diagrams:
https://www.physicsforums.com/showthread.php?t=151075
 
A.T. said:
Hello,

for those of you who liked Epsteins book "Relativity Visualized" and
his geometrical interpretation of relativity: I have made two
interactive space-eigentime diagrams in flash to play with:
A basic on showing mainly special relativity:
http://www.adamtoons.de/physics/relativity.swf
A 3D version showing gravitation as curved spacetime (needs flash 9):
http://www.adamtoons.de/physics/gravitation.swf
Comments and suggestions are welcome

Adam

Can you tell me why the time coordinate is a closed circle in the interactive space-eigentime diagrams of http://www.adamtoons.de/physics/gravitation.swf
 
mendocino said:
Can you tell me why the time coordinate is a closed circle in the interactive space-eigentime diagrams of http://www.adamtoons.de/physics/gravitation.swf

It isn't. After each cycle you land on a new layer of the diagram. The 3D-view is basically the left 2D-diagram rolled together, so you have 4 layers. The choice of a rotational surface to embed the curved 2D-spacetime in 3D is arbitrary and has no physical meaning.
 
Thank you Adam for the excellent animations.
 

Thread 'EPR revisited'

In an inertial frame of reference (IFR), there are two fixed points, A and B, which share an entangled state $$ \frac{1}{\sqrt{2}}(|0>_A|1>_B+|1>_A|0>_B) $$ At point A, a measurement is made. The state then collapses to $$ |a>_A|b>_B, \{a,b\}=\{0,1\} $$ We assume that A has the state ##|a>_A## and B has ##|b>_B## simultaneously, i.e., when their synchronized clocks both read time T However, in other inertial frames, due to the relativity of simultaneity, the moment when B has ##|b>_B##...
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