Length Contraction spaceship Problem

AI Thread Summary
A spaceship traveling at 0.750c has a measured length of 28.2 m, and the question asks for its rest length. The relevant equation for length contraction is L = L_0 * sqrt(1 - v^2/c^2). A participant initially calculated the rest length incorrectly as 18.65 m, but it was clarified that they needed to solve for L_0 instead. The correct approach leads to a rest length of 42.6 m, with a reminder that the square root must be applied in the calculations. The discussion emphasizes the importance of correctly identifying variables in relativistic equations.
hbrinn
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Homework Statement


A spaceship passes you at a speed of .750c. You measure its length to be 28.2 m. How long would it be when at rest?


Homework Equations


I think the equation that is relevant is L=L(sub0)xsqrt(1-v^2/c^2)


The Attempt at a Solution


L=28.2xsqrt(1-(.75^2))=18.65m
Apparently, the answer is 42.6 m. I can't even imagine how to get 42.6 from that.
 
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hbrinn said:

Homework Statement


A spaceship passes you at a speed of .750c. You measure its length to be 28.2 m. How long would it be when at rest?


Homework Equations


I think the equation that is relevant is L=L(sub0)xsqrt(1-v^2/c^2)


The Attempt at a Solution


L=28.2xsqrt(1-(.75^2))=18.65m
Apparently, the answer is 42.6 m. I can't even imagine how to get 42.6 from that.

I think you just got your variables swapped. If you are using

L = L_0 {\sqrt{1 - \frac{v^2}{c^2}}

then L is 28.2 m, and you need to solve for L_0, the length when the relative velocity is 0. L is the length when traveling at speed v.
 
Then by that logic isn't the answer 64.457?

I did 28.2=L(1-.75^2). Is that wrong?
 
hbrinn said:
Then by that logic isn't the answer 64.457?

I did 28.2=L(1-.75^2). Is that wrong?

You forgot to take the square root. :-p
 
You forgot the square root.
 
Yay! Thank you very much!
 

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