How Long Does It Take for One Rocket to Pass Another at Relativistic Speeds?

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SUMMARY

The discussion centers on calculating the time it takes for Rocket Orion, traveling at 0.900c, to completely pass Rocket Sirius, which is moving at 0.700c. The key concepts involve determining the observed velocity of Orion in Sirius's Frame of Reference (FOR) and the relativistic length contraction of Orion in that same FOR. The correct approach requires using the relativistic addition of velocity formula to find the relative speed, which is not simply 0.200c. The participant successfully resolves their confusion regarding the Frame of Reference and the necessary calculations.

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  • Understanding of special relativity concepts, including Frame of Reference (FOR)
  • Familiarity with the relativistic addition of velocity formula
  • Knowledge of length contraction in special relativity
  • Basic understanding of the speed of light as a constant (c)
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Students of physics, aerospace engineers, and anyone interested in the practical applications of special relativity in high-speed travel scenarios.

ZanyCat
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I do have a specific example/problem, but my actual question is more so conceptual (I'm sure that seeing someone confused by relativity is a first around here!).

The problem:

Two rockets are each 1000m long in their rest frame. Rocket Orion, traveling at 0.900c relative to the earth, is overtaking rocket Sirius, which is poking along at a mere 0.700c. According to the crew on Sirius, how long does Orion take to completely pass?
That is, how long is it from the instant the nose of Orion is at the tail of Sirius until the tail of Orion is at the nose of Sirius?
_____________________________________________________________________________________

Okay, so I'm thinking that I'll need to find a) the observed velocity of O in S's FOR and b) the observed length of O in S's FOR, and go from there.

My confusion is coming from the velocities. I'm taking S as my Frame of Reference, so from S's FOR, is O moving past at 0.200c? Or do I need to transform the velocity?
 
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ZanyCat said:
Okay, so I'm thinking that I'll need to find a) the observed velocity of O in S's FOR and b) the observed length of O in S's FOR, and go from there.
Good.

My confusion is coming from the velocities. I'm taking S as my Frame of Reference, so from S's FOR, is O moving past at 0.200c?
No. To find the velocity of O with respect to S, you'll need to use the relativistic addition of velocity formula.
 
I'm struggling with that part. Do I need to consider the Earth as my stationary FOR, then?
 
Never mind, got it sorted, thanks Doc!
 

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