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What does it mean to say that mass "approaches infinity"?

I have read that mass of a body increases with the speed and when the body reaches the speed of light, the mass becomes infinity.

What exactly does it mean to say that the mass "approaches infinity" or "becomes infinity"? I am not able to get a picture of "infinite mass" in my mind.

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Why does this question receive so much attention, and why do people give essentially the same answer over and over! –  MBN Mar 15 '11 at 16:22
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Everything was said, but not by everybody. The credo of people too lazy to read the thread before writing. –  Georg Mar 15 '11 at 20:14
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How can a question that generates so many answers get a negative vote? –  Carl Brannen Mar 16 '11 at 2:11
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-1. @Vinoth this question is ill-formed, to say the least. You provide no context or motivation or some idea of your background so one knows how to respond and at what level. @Carl this is the sort of question that, because it is ill-defined, becomes a Rorschach-test with people providing answers for what they interpret the question to be. Is this really the standard we want to set for questions on this site? –  user346 Mar 16 '11 at 2:56
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-1 I am really sorry for down voting, but I don't think that this question is appropriate for this site. Maybe you should check out physicsforums.com for other questions of this sort. Personally I would be more interested and active on this site if the level of questions were on advanced graduate to research level, and I think many more competent people would join in. –  Heidar Mar 24 '11 at 23:56
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6 Answers 6

up vote 12 down vote accepted

The answers given so far are fine, but to my surprise nobody's mentioned the most important point: in modern terminology, we generally don't say that the mass of an object increases with speed. "Relativistic mass increase" is outdated terminology, not used by most physicists anymore. In general, nowadays, "mass" means "rest mass" and is independent of velocity. Igor Ivanov's answer to this question says it all.

I haven't read the article by Lev Okun that he refers to, but I like the term "pedagogical virus" for this notion.

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The mass will never be infinite because it would require infinite work to reach required speed. It's just a figure of speech.

Instead of trying to imagine "infinite mass" try imagining the process: as you apply force ("press the accelerator pedal") the object instead of going faster, gets heavier. The more work you provide, the heavier the object gets.

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Wasn't there enogh written on "rechurners" in the comments? -1 –  Georg Mar 25 '11 at 13:01
    
@Georg: Where in the other comments was work-mass correlation mentioned? It is deceivingly easy to think "something suddenly becomes infinitely heavy" and ponder how that happens. If every gram of weight gained means 90 terajoules of energy expended, it opens eyes on cost of "going to infinity". –  SF. Mar 25 '11 at 13:44
    
So on top You did not understand the question at all. –  Georg Mar 25 '11 at 14:04
    
If that is so, then I still don't. Care to explain? –  SF. Mar 25 '11 at 15:07
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It means that its inertia (resistance to change in the state of motion) approaches infinity. You probably already know from $F=ma$ that for the same change in speed (acceleration), a larger mass requires a larger force. As the velocity of a body approaches the speed of light, its inertia (i.e. $\gamma m$) becomes so high that you need an impossibly infinite force to accelerate it to exactly the speed of light.

And as Georg says, whenever you see "becomes infinite", read it as "approaches infinity".

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It means that if a finite force acts on the mass in its stationary frame, then in all other frames as the measured velocity approaches c, the acceleration approaches 0 which implies the "relativistic mass", the "apparent mass" the "effective mass", call it what you will, approaches infinity.

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As the speed of a body approaches the speed of light, it becomes harder and harder to accelerate body. This fact is captured by following formula.

$$f(v) = \frac{m_0}{\sqrt{1-\frac{v^2}{c^2}}}$$

When a physicist says that,

when speed of a body equals the speed of light its mass becomes infinite.

He is not saying $f(v = c)$ but $\lim_{v\to c}f(v) = \infty$

You might want to read about limit.

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If you want to imagine an infinite mass just think of a piece of matter which does not response (i.e. accelerate) to any force. Obviously, it is an ideal concept. In reality "the mass approaching infinity" means it is increasing without any finite upper limit.

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