Is the current view of the intergalactic speed limit short sighted?

In summary, the discussion explores the misconceptions surrounding Einstein's energy equation and its relation to the universal speed limit. The equation does not state that mass can only be converted to energy at the speed of light squared, but rather is a statement of an object's internal energy at rest. The concept of "relativistic mass" is outdated and does not contribute to understanding special relativity. To fully grasp the topic, one must delve into other equations and concepts such as Lorentz transformation and Minkowski space.
  • #1
Bob c2
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Is the current view of the intergalactic "speed limit" short sighted?

Just a question that may have some enlightening answers...
Einstein says that the interstellar speed limit is the speed of light. What happened to E=MC2?
If mass doesn't convert to energy till accelerated to the square of the speed of light, would it not follow that the increase in mass occurs as it approaches the square of the speed of light, rather than the speed of light? If this were true, then faster than light drives should be able to go many times the speed of light up to approaching the square of the speed of light.
Just a question that may have some enlightening answers...
 
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  • #3


I think you're misunderstanding Einstein's energy equation. Who told you mass doesn't convert to energy unless it reaches the speed of light squared? That equation is a statement of the amount of internal energy an object has at a given mass. When combined with other relativistic equations, such as energy and momentum conservation, this equation allows mass to be converted to energy and vice versa. One example of this is pair production.

Also, there is no increase of mass as the massive object accelerates. When a massive object approaches the speed of light, its energy approaches infinity (E = mγc2) and its momentum approaches infinity (p = mγv) but its mass is invariant under Lorentz transformation. You were probably taught that an objects "relativistic mass" increases to infinity (M = γm, such that E = Mc2) but this is an outdated notion, and doesn't really help our understanding of special relativity as much as it hinders it.

The only thing special about the speed of light SQUARED is that it is the scaling factor in translating between the MASS and object has and the REST ENERGY it has. This E = mc2 equation holds no information about the universal speed limit, or what happens to E, p, or m when you approach it. It also doesn't tell you what speeds need to be reached before mass can be transformed to energy, or vice-versa. It is simply a statement of rest energy. You need to dive more into the other equations of special relativity, Lorentz transformation and Minkowski space to understand more than what this flashy equation gives you.
 

1. What is the current view of the intergalactic speed limit?

The current view is that the speed of light, which is approximately 299,792,458 meters per second, is the ultimate speed limit in the universe. This means that no object can travel faster than the speed of light.

2. Why is the current view considered short sighted?

The current view is considered short sighted because it is based on our current understanding of physics and may not account for future advancements in technology or new discoveries that could change our understanding of the universe.

3. Is there evidence to support the idea of a higher intergalactic speed limit?

Currently, there is no evidence to support the idea of a higher intergalactic speed limit. However, some theories, such as the Alcubierre drive, propose the possibility of faster-than-light travel by manipulating space-time.

4. How does the concept of relativity play a role in the intergalactic speed limit?

According to Einstein's theory of relativity, the speed of light is the same for all observers in the universe. This means that no matter how fast an object is moving, the speed of light will always be measured as the same. This is one of the reasons why the intergalactic speed limit is currently believed to be the ultimate limit.

5. What are some potential consequences of surpassing the intergalactic speed limit?

If it were possible to surpass the intergalactic speed limit, it could have major implications for our understanding of physics and the laws of the universe. It could also open up the possibility for interstellar travel and exploration, but it could also have unforeseen consequences that we are not yet aware of.

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