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Moving at light speed

tom

By tom
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tom Newbie

tom

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Is the following statement true. If no why?

 

When a body with mass m0 moves at light speed his energy is infinity.

 

E = mc^2 = m0 * c^2 / sqrt ( 1 - c^2 / c^2) = m0 *c^2 / 0 = infinity

 

I know it's impossible for a body with mass to reach that speed, this is a theoretical question.

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Buffy
Buffy

Actually, I've found a hole in your knowledge that is the source of your misunderstanding. It very clear you don't understand the meaning of local reference frame. It can be based on *whatever object

Buffy Rookie

Buffy

Posted
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Is the following statement true. If no why?

 

When a body with mass m0 moves at light speed his energy is infinity.

 

E = mc^2 = m0 * c^2 / sqrt ( 1 - c^2 / c^2) = m0 *c^2 / 0 = infinity

 

I know it's impossible for a body with mass to reach that speed, this is a theoretical question.

That's why its impossible to push a mass to the speed of light because it takes "infiinte energy" which obviously isn't available...

 

Cheers,

Buffy

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Buffy Rookie

Buffy

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This limit is an event horizon. Relatively these galaxies are travelling at the speed of light.
Slight correction: they are "traveling relatively" slower than light, but the expansion of the universe creates the perception of faster than light "speeds". In their local frame of reference of course, they may not be perceived to be moving at all (depeding on what the defined reference frame is...)..

 

Cheers,

Buffy

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Buffy Rookie

Buffy

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Do we know any galaxies even appearing to recede close to the speed of light?
There was a great discussion of the above in the March 2005 Scientific American article "Misconceptions About the Big Bang." The basic idea here is that objects that are furthest away from us in the universe are "receding" at the greatest "relative speeds" and the Hubble limit is defined as the point at which they appear to be moving at the speed of light. If they're further away, they're "receding" at more than the speed of light and the light will never reach us. The article points out that most of this "speed" is simply the expansion of the universe and in local frames of reference, they're not moving at anywhere near the speed of light....

 

Cheers,

Buffy

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Tormod Newbie

Tormod

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The reference frame is right underneath forehead. All other reference frames are null and void due to the theory of relativity. A galaxy, receding at c, would not appear to be travelling at c, however, because *you* would no longer see it.

 

I understand that. My question was whether we actually have any observations of galaxies receding even close to c.

 

Edit: Thanks, you replied while I typed this. :eek:

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Damo2600 Newbie

Damo2600

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"The article points out that most of this "speed" is simply the expansion of the universe and in local frames of reference, they're not moving at anywhere near the speed of light...."

 

Time is slower for an observer, on a train, moving away from a static observer. But it is not really slower because an observer driving in a car beside the train does not experience a time difference.

 

So you are saying that relativity is only relative when the observer chooses. Nice way to get around the absurdities. Time is not relative if you don't want it to be either?

 

If only einstein had thought of that.

 

Damien

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Buffy Rookie

Buffy

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So you are saying that relativity is only relative when the observer chooses. Nice way to get around the absurdities. Time is not relative if you don't want it to be either?
Nah, you're reading too much into this. The only point here is that people make the argument that the observations you've cited are proof that things can move faster than the speed of light, which of course they can't, and the article points out that the expansion of the universe becomes the dominant factor in observed speed at these distances, but that expansion is not valid for defining speed--which is based on distance-because the distance is actually changing! :eek:

 

Everything is always relative, and local frames of reference are implicit in relativity ("where ever you are, that's what you see!")...

 

Cheers,

Buffy

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Damo2600 Newbie

Damo2600

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Ah, but you see, that's not how relativity works. If that were true I could just minus the velocity of the train and my clocks would match your stationary clocks. The speed of light would remain constant. Relativity now would not equal reality and time and space now becomes absolute.

 

I see what you are implying but there are implications built-in to that point of view.

 

Like the whole last century of physics. I've put a lot of thought into this so need we go further?

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