Bob's Spaceship: Length Contradiction & Time Difference

  • Thread starter derekmohammed
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In summary, if Bob were in a spaceship moving at .9c and decided to move in the opposite direction at .7c, from an observer on Earth, he would appear to be moving at 0.2c, due to the effects of length contraction and time dilation.
  • #1
derekmohammed
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What would happen?

In the following hypothetical situation...

If Bob was in a spaceship that was moving 0.9c and bob (who can accelerate very quickly and not feel the effects...) desides to move in the opposite direction at 0.7c. From an observer who is relativly stationary what would bob look like (ie length contradiction). Also how would Bob's time be diffrent from the ships and the observer?

Thanks...
Derek Mohammed
 
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  • #2
Hello Derek,
You must give the reference frames or the questions are meaningless... 0.9c wrt who?... 0.7c wrt who? ...stationary wrt who?
:)
 
  • #3
derekmohammed said:
In the following hypothetical situation...

If Bob was in a spaceship that was moving 0.9c and bob (who can accelerate very quickly and not feel the effects...) desides to move in the opposite direction at 0.7c. From an observer who is relativly stationary what would bob look like (ie length contradiction). Also how would Bob's time be diffrent from the ships and the observer?

Thanks...
Derek Mohammed

If the spaceship is moving at .9c then the ship would have a strong accelerated force pushing down on bob, making it very hard for him to move in the oposite direction. It's like when you jump up here on earth, gravity forces you down.

Edit:
Oops, I should have read the question better, he doesn't feel the effects. Sorry.
 
Last edited:
  • #4
I can tell you the relavistic effects of traveling at .9c and .7c, but I don't get the logic behind your question.
 
  • #5
derekmohammed said:
In the following hypothetical situation...

If Bob was in a spaceship that was moving 0.9c and bob (who can accelerate very quickly and not feel the effects...) desides to move in the opposite direction at 0.7c. From an observer who is relativly stationary what would bob look like (ie length contradiction). Also how would Bob's time be diffrent from the ships and the observer?

Thanks...
Derek Mohammed

" From an observer who is relativly stationary"

Relative to whom? Bob or bob?
 
  • #6
haha, bob isn't the same person?
 
  • #7
OK I am soooo sorry. Bob and bob are the same person! Sorry.

Well What I mean is: When the ship is traveling at .9c bob is going to experience some relavalistic effects, right? So if he is already experiancing those effects what will happen if he moves in the opposite direction at 0.7c. Will the effects negate each other and bob will only experience 0.2c relavalistic effects.

(when I say relavalistic effects I mean time dilation and length contradiction relative a stationary observer. ie the diffrence in time from soemone watching)

I hope that helps... Again I apologize...
 
  • #8
Assuming that Bob is moving at 0.9c relative to the observer, then accelerates to 0.7c in the opposite direction, again relative to the same observer, the observer will see Bob experiencing the relativistic effects of the 0.7c speed. Relativistic effects depend only on the instantaneous relative velocity, not how you get to that velocity.
 
  • #9
So would the relavalisitc effects be compounded? (ie moving at 0.9c and then moving at 0.7c?)
 
  • #10
So would the relavalisitc effects be compounded? (ie moving at 0.9c and then moving at 0.7c?)
No, HallsofIvy has said it, it will be contracted according to the velocity that has in that instant measured by the stationary observer. E.g, if the stationary observer measures a velocity of 0.7 c, that is the quantity that enters in the Lorentz factor

There's a formula for composing velocities, but is for another different situation; is when an observer A measures the velocity of observer B, and at the same time the velocity of A is being measured by and observer C
 
  • #11
derekmohammed said:
Well What I mean is: When the ship is traveling at .9c bob is going to experience some relavalistic effects, right? So if he is already experiancing those effects what will happen if he moves in the opposite direction at 0.7c. Will the effects negate each other and bob will only experience 0.2c relavalistic effects.
Are you saying bob "moves in the opposite direction at 0.7c" relative to an observer on board the ship, or relative to an observer on Earth who sees the ship moving at 0.9c? If the first, then the observer on Earth will see bob moving at 0.2c; if the second, then he'll see bob moving at 0.7c, by definition. Either way, the amoung of length contraction and time dilation he'll see in bob will be based on how fast bob is moving in his frame. But remember, length contraction and time dilation are relative, not absolute--an observer on the ship would see a different amount of length contraction and time dilation in bob, and bob himself would see no length contraction and time dilation in himself (but he would see the other two observers slowing down and contracting).
 

1. What is the concept behind "Bob's Spaceship: Length Contradiction & Time Difference"?

The concept behind "Bob's Spaceship: Length Contradiction & Time Difference" is to explore the effects of time dilation and length contraction on a spaceship traveling at high speeds.

2. How does time dilation affect the length of a spaceship?

According to the theory of relativity, as an object travels at high speeds, time for that object slows down. This means that the length of the spaceship will appear to contract from the perspective of an outside observer.

3. What is the significance of the time difference between Bob's spaceship and the Earth?

The time difference between Bob's spaceship and the Earth demonstrates the effects of time dilation. As Bob's spaceship travels at high speeds, time for those on the spaceship will pass slower than those on Earth. This results in a time difference between the two locations.

4. How does the speed of Bob's spaceship impact the length and time difference?

The faster Bob's spaceship travels, the greater the effects of time dilation and length contraction will be. This means that the length of the spaceship will appear shorter and the time difference between the spaceship and Earth will be greater.

5. Can time dilation and length contraction be observed in real life?

Yes, time dilation and length contraction have been observed in various experiments and are taken into account in many technological applications, such as GPS systems. However, the effects are only noticeable at extremely high speeds or in the presence of strong gravitational fields.

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