Understanding Cd^2 and Its Relationship to SR in Practice

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In the discussion about special relativity (SR) and a spinning CD, the focus is on how spatial velocity affects the perceived dimensions of the CD. As the CD spins, the outer radius experiences greater spatial velocity than the inner radius, leading to different contraction effects. However, the inner radius does not shrink; instead, length contraction occurs relative to an observer at the center of the CD. This results in a perceived circumference that differs from the expected value of pi. The conversation also touches on the implications of relative motion, such as how a speeding fly would appear from different frames of reference.
ddr
this is about SR in practice...

imagine a Cd with inner radius r, outter radius R and middle radius d. the Cd starts to spin from 0 to some V spatial speed with respect to the radius d. as the speed increases all the perimeters shrink, but the outter one shrinks far beyound the inner because it has greater spatial velocity cause it corresponds to bigger radius. so when the speed of d-circle becomes some V (critical) the Cd will (in a SR kinda sense) turn into square ie. the outter and the inner parameters will equalize.
am I right?
 
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No. The radius does not shrink as it lies on a direction perpendicular to the direction of motion. But relative to us at the centre of the CD which the cd is moving relative to, we will have length contraction, which leads us to a value for circumference that is shorter than that obtained if we were moving with the CD. Therefore, the moving measurement would give values of pi that are not 3.14159...
 
I didn't meant that the radiuses are shrinking but the perimeters do cause the displacement is parallel with them.Ok?

I wonder what would a speeding fly look like in a relative sense?
 

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