Can the Effects of Relativity be Detected in a Simple Wire Experiment?

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Discussion Overview

The discussion revolves around the potential detection of relativistic effects in a simple wire experiment, particularly focusing on whether a mass increase in a wire can be observed when a current is passed through it. Participants explore various aspects of relativity, electron behavior, and the implications of these effects in different contexts, including particle accelerators.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • Some participants propose that electrons experience relativistic effects, suggesting a detectable mass increase in a wire when a current flows through it.
  • Others argue that the actual net movement of electrons, or drift velocity, is very small and not close to the speed of light, which may limit the observable effects.
  • One participant references Einstein's historical suggestion of measuring weight differences in radioactive materials to check E=mc², noting that he later deemed it a foolish idea.
  • There is a discussion about the speed of signal propagation in wires being a significant fraction of the speed of light, contrasting with the drift velocity of individual electrons.
  • A participant raises a question about whether particles in accelerators become heavy enough to affect nearby objects, like a plumb line, due to their speed, while another questions the relevance of such an observation.
  • Some participants clarify that relativistic effects in particle accelerators are evident, as the energy input and resulting speeds align with relativistic predictions.
  • One participant presents a relativistic explanation for the forces between parallel wires based on the perspective of electrons and the length contraction of positive charges.

Areas of Agreement / Disagreement

Participants express differing views on the detectability of relativistic effects in wires, with some suggesting it is unlikely while others explore the theoretical implications. The discussion remains unresolved regarding the extent to which these effects can be observed in practical scenarios.

Contextual Notes

Limitations include the small drift velocities of electrons compared to the speed of light and the complexity of measuring relativistic effects in practical experiments. The discussion also touches on historical ideas and their relevance to current understanding.

Rockazella
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Here’s a quick thought I had.
Since electrons experience relativistic effects just like any other matter, would you be able to detect a mass increase in a wire if you sent a current through it?
 
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The actual net movement of electrons in a current carring wire is very small. The actual electon drift velocity is not even close to c.
 
Einstein wrote in his second relativity paper that one might check out E=MC2 by weighing radioactive material at two different times and comparing the weight difference to the total radioactive energy emitted in between. He later admitted it was a foolish idea.
 
The actual net movement of electrons in a current carring wire is very small. The actual electon drift velocity is not even close to c.

Isn't it true that the signals speed is near c? I guess I don't really understand what you mean by electron drift velocity, mind explaining?
 
The name is very discriptive. The actual speed of a single electron or its drift velocity is much smaller then c. Signal probogation on the other hand is a signifigent fraction of c. This is not an uncommon phenonemn, even in water waves a molecule of water remaings nearly stationary horizontanly as the wave passes.
 
On a similar note, in particle accelerators, they can get particles to go quite fast, so do the particles ever get heavy enough from their speed that putting a plumb line a few feet from the accelerator would be noticably perturbed when the accelerator is running? Granted, this wouldn't be as cheap as running a current through a wire.
 
Originally posted by Jonathan
On a similar note, in particle accelerators, they can get particles to go quite fast, so do the particles ever get heavy enough from their speed that putting a plumb line a few feet from the accelerator would be noticably perturbed when the accelerator is running? Granted, this wouldn't be as cheap as running a current through a wire.

Just what would that prove?

Even thought particle accelerators have had sufficient energy to push particles well beyond c, if we lived in the world of Newtonian Physics, they have been unable to. Why? because of relativity, the speeds achieved for the energy input match the predictions of relativity to many decimal places.
 
Integral: I don't understand your post, but my point was that maybe the paricle would get heavy enough to have a noticable attraction for the plumb line. I really doubt it though, it was just an idea.
Mr. Robin Parsons: According to relativtity, it should be unmeasurably heavier while hot, not the other way around. Maybe water condensation?
 
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Johnathan, its a lot easier than you're making it out to be: since the particle accelerator has to accelerate the particle, you can tell exactly how much energy you put into the particle and then measure its speed. Even a mediocre particle accelerator puts enough energy into a particle to accelerate it well beyond C under Newtonian mechanics. So the relativistic effects are clear as day.
 
  • #10
Oh! Upon rereading Integral and Russ_water's posts, They are clear know, I don't know how I missed the point before.
 
  • #11
Originally posted by Rockazella
would you be able to detect a mass increase in a wire if you sent a current through it?
Probably not.
But there is an easy relativistic explanation of forces between parallel wires:
Let's assume that positive charges are at rest, and negative charges flowing (OK, OK,...)
Imagine how one electron in wire A 'sees' wire B.
- If the currents have the same direction, then the electron will see the positive charges length-contracted, i.e. condensed. No change on negative charges. So wire B appears net positive, so attraction.
- If the currents have opposite directions, then the positive charges appear condensed, but the negative charges more condensed. So net negative charge, so repulsion.

I know that drift velocities are only some cm/s, but on the other hand you have a very large number of electrons. When doing the math, you arrive at the correct force, believe me.

And of course, this doesn't 'prove' anything about relativity.
 

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