Suppose you take an 80 million km trip to Mars from Earth traveling at 0.8c. Unb
ID: 2108981 • Letter: S
Question
Suppose you take an 80 million km trip to Mars from Earth traveling at 0.8c. Unbeknownst to you, your mortal enemy has placed a bomb on your spaceship with a 4 minute timer.<?xml:namespace prefix = o ns = "urn:schemas-microsoft-com:office:office" />
Will you live long enough to reach Mars before the bomb explodes?
Answer this problem first without using relativity.
Then answer it from the point of view of your Earth-bound enemy.
And lastly, answer it from your point of view inside the spaceship.
Explanation / Answer
Part A)
240 sec, so you have to be there in less than 240 sec
In non-relativistic terms
d = vt
80000 X 10^6 = (.8)(3 X 10^8)(t)
t = 333 sec
Part B)
From the earth bound enemy, time dilates
t = t'/(1 - v^2/c^2)^.5
t = 240/(1 - .8^2)^.5
t = 400 seconds hence you got there safely
Part C)
In your terms, the length of travel is smaller
L = (8 X 10^10)(1 - v^2/c^2)^.5
L = 4.8 X 10^10 m
4.8 X 10^10 = (.8)(3 X 10^8)(t)
t = 200 sec
So you would get to your destination in only 200 seconds, you would have another 40 seconds before the explosion, so you would be safe.