Can Relativity Explain the Changing Size of Babylon 5 Space Station?

  • Thread starter wowolala
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That's just the speed of the Starfury, 0.2c.In summary, the question asks for the observed size of the Babylon 5 space station as it passes by a Vorlon vessel at a speed of 0.975c. The space station has a measured length of 8.0645km. The Starfury is released from the space station with a speed of 0.2c towards the incoming Vorlon vessel. The formula for relativistic addition of velocity is not needed, as the question only requires the speed of the observers relative to the space station, which is 0.2c.
  • #1
wowolala
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Homework Statement



A Vorlon vessel traveling at a speed of 0.975c passes by the Babylon 5 space station( engineers that designed the station quote its length at 8.0645km).

A Starfury is released from the space station moving with a speed of 0.2c towards the incoming Vorlon vessel.

What is the observed size of Babylon 5 space station for all observers involved?


for " observed size", does it mean the length of space station...

how can i do the addtion in relativistic situation?

thx, i need help from you guys


thx so much
 
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  • #2
wowolala said:
for " observed size", does it mean the length of space station...
Yes, as measured by each observer.
how can i do the addtion in relativistic situation?
What addition?
 
  • #3
V1+V2=(V1+V2)/(1+V1*V2/c^2)

do we need to use this formula

V stands for speed
 
  • #4
You'd need that formula for relativistic addition of velocity if you wanted to find the relative velocity of the Vorlon vessel and the Starfury. But that's not relevant here.

Since you're asked to find the observed size of the space station, you need the speed of the observers relative to the space station.
 

FAQ: Can Relativity Explain the Changing Size of Babylon 5 Space Station?

1. What is the theory of relativity?

The theory of relativity, developed by Albert Einstein, is a fundamental theory in physics that explains the relationship between space and time. It states that the laws of physics are the same for all observers, regardless of their relative motion.

2. What are the two types of relativity?

The two types of relativity are special relativity and general relativity. Special relativity deals with the laws of physics in inertial frames of reference, while general relativity extends these laws to non-inertial frames and includes the effects of gravity.

3. How does relativity affect our understanding of time and space?

Relativity shows that time and space are not absolute, but rather are relative to an observer's frame of reference. This means that measurements of time and space can vary depending on an observer's speed and position.

4. What is the famous equation that comes from relativity?

The famous equation is E=mc², which states that energy (E) is equal to mass (m) times the speed of light (c) squared. This equation shows the relationship between mass and energy and is a cornerstone of modern physics.

5. How has relativity been proven?

Relativity has been proven through numerous experiments and observations, including the bending of light by massive objects, the slowing of time for objects in motion, and the confirmation of the predicted gravitational waves. It is also used in many practical applications, such as GPS technology.

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