No Mass Objects: Can They Remain Stationary?

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The discussion centers on the concept of massless objects and their behavior in relation to speed. It is established that objects with zero mass must travel at the speed of light, as they cannot exist otherwise. The conversation also touches on the distinction between invariant mass and relativistic mass, clarifying that photons have zero invariant mass but possess energy, which gives them relativistic mass. Questions arise about the possibility of adjusting mass and whether smaller masses could exceed the speed of light, but these are countered by the understanding of mass in relativity. Ultimately, massless objects are constrained to light speed, reinforcing fundamental principles of physics.
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Light has very little mass and always travels at the same speed. If I could adjust a body so that it had no mass would it remain stationary as the planet Earth flew off on its orbit around the Sun, or would it spread out evenly in all directions at the speed of light?

Let's put aside the matter of the massive explosion :-)
 
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I am curious how you would "adjust" a body to change its mass at all. An object with zero mass must move at the speed of light or it wouldn't exist at all.
 
dulrich said:
I am curious how you would "adjust" a body to change its mass at all. An object with zero mass must move at the speed of light or it wouldn't exist at all.

That's an avenue you really don't want to go down :) I just wanted to know if objects without mass will always be traveling at the speed of light.
 
cubud said:
I just wanted to know if objects without mass will always be traveling at the speed of light.

Yes.
 
Why not faster? I was told that the photon traveled at the speed of light but it has a very, very small mass that is almost negligible (but still exists). So why wouldn't a smaller mass go faster?
 
FeDeX_LaTeX said:
Why not faster? I was told that the photon traveled at the speed of light but it has a very, very small mass that is almost negligible (but still exists). So why wouldn't a smaller mass go faster?
There is more than one sort of mass in relativity, e.g. "invariant mass" and "relativistic mass". Most physicists nowadays mean "invariant mass" when they say "mass". "Relativistic mass" is really just another name for "energy" (divided by c2) and the term is deprecated.

Photons do have relativistic mass (as they have energy) but their invariant mass is always zero.
 

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