Question About Light and Speed of Light

In summary, the conversation discussed the potential for light to be charged and accelerated by electric fields, as well as the role of gravity in light's movement. It was determined that light does not have a charge and thus cannot be accelerated by electric fields, but it can be influenced by gravity. There was also speculation about the possibility of separating charge from an electron, but it is currently not possible.
  • #1
sjd0004
7
0
Not really sure if this is the right location for this post, but here it goes.

I have found myself becoming increasingly interested in light and wondering if the speed of light could be increased by some amount. If the light was charged, and released near a powerful electric field, could the velocity of light go beyond the speed of light as it is currently defined? This isn't for any homework or school assignment, just an idea I was curious about.
 
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  • #2
Light is not charged, so it can't be accelerated by electric fields. In classical physics, light IS electric (and magnetic) fields. As far as we know, the speed of light is a universal constant.
 
  • #3
That being said, is there anyway light could become charged through an outside factor? Or is it physically impossible?
 
  • #4
sjd0004 said:
That being said, is there anyway light could become charged through an outside factor? Or is it physically impossible?

No, in quantum physics, light is made out of elementary particles called photons. Electric charge is a fundamental property of an elementary particle i.e. it's one of the characteristics that defines that particle. For example, electrons have a charge of -1, and protons +1. This, along with their masses, and other properties, is what *makes* them electrons (or protons) and not some other particle. So, since the electric charge is an intrinsic property of a a given particle you can't change the electric charge of a that type of particle: it is what it is. In the case of a photon, the charge is 0.
 
  • #5
cepheid said:
No, in quantum physics, light is made out of elementary particles called photons. Electric charge is a fundamental property of an elementary particle (e.g. electrons have a charge of -1, and protons +1). That is to say, you can't change the electric charge of a given particle, it is what it is. In the case of a photon, the charge is 0.

Ah, I understand now. Thank you.
 
  • #6
sjd0004 said:
Ah, I understand now. Thank you.

You are welcome! I edited my explanation a bit for clarity, but it seems it was unecessary, as you understood anyway.
 
  • #7
While you can't charge light and somehow pull on it using an electric field, you CAN pull on it using gravity.

Nevertheless, even in a gravity field the speed of light is capped at C.
 
  • #8
Lsos said:
While you can't charge light and somehow pull on it using an electric field, you CAN pull on it using gravity.

Nevertheless, even in a gravity field the speed of light is capped at C.

Not quite. Gravity has no effect on photons. It appears that light bends around large masses due to space-time bending. The space is bending, not light trajectory.
 
  • #9
FeynmanIsCool said:
Not quite. Gravity has no effect on photons. It appears that light bends around large masses due to space-time bending. The space is bending, not light trajectory.

That's a bit of a chicken-and-egg statement. Gravity is bent space-time.
 
  • #10
FeynmanIsCool said:
Not quite. Gravity has no effect on photons. It appears that light bends around large masses due to space-time bending. The space is bending, not light trajectory.

If spacetime is bent, and gravity is the manifestation of this, and lights trajectory is altered because of bent spacetime, then I would say light is affected by gravity.
 
  • #11
What Feynman means, I believe, is that light always travels on geodesics, it's just that in some frames straight lines appear bent. But if I'm sitting near a massive object, I don't see light curving in some strange way. An observer far away does though.
 
  • #12
Not quite. Gravity has no effect on photons. It appears that light bends around large masses due to space-time bending. The space is bending, not light trajectory.
You could say the same about planets orbiting the Sun gravity has no effect on them and it's due to space-time.Or an object falling on Earth there is no such thing as gravity only space-time bending.
 
  • #13
Ok ok ok I worded it wrong. I just wanted to clarify that gravity wasn't pulling on photons, as if they have a mass or something. Yes, so gravity is bent space time, and "bent" light is a consequence of this warping. You could say that light is affected by gravity in that way, but it looks as if Lsos is talking about photons being influenced by a Newtonian view of gravity.
 
  • #14
FeynmanIsCool said:
Ok ok ok I worded it wrong. I just wanted to clarify that gravity wasn't pulling on photons, as if they have a mass or something. Yes, so gravity is bent space time, and "bent" light is a consequence of this warping. You could say that light is affected by gravity in that way, but it looks as if Lsos is talking about photons being influenced by a Newtonian view of gravity.

You realize light gravitates as well right? It contributes to gravitation, just like matter does.
 
  • #15
...an idea I was curious about.

It's an interesting idea...never thought about that. Here are some 'deeper' considerations:

So far, as noted above already, light seems to have a universally fixed speed. While we can't currently 'charge' it electrically, also noted above, gravity does ACCELERATE it...but only by changing it's direction, not it's speed. In so far as we know, when the energy of light changes, it's frequency changes, not it's speed. [That's unique to massless entities.] And adding electric charge would appear to add energy...?? So that might not help.

We say mass can't be accelerated to the speed of light...but might there be some way to accelerate 'charge' to c?...not from current theory, because all we really know about charge so far is that it seems to be associated with mass...like in an electron or an ion.

[I checked that last comment and it seems correct:

Electric charge is a physical property of matter that causes it to experience a force when near other electrically charged matter. ...The electric charge is a fundamental conserved property of some subatomic particles,

http://en.wikipedia.org/wiki/Electric_charge] Hmmm...Charge is a 'conserved' property...Could charge be separated from an electron??...that could conserve [retain] charge, but we can't do that according to anything I know. It would no longer be an 'electron' because an electron always has charge. Could we add such separated charge 'entity' to a photon??...one problem is it would no longer be a photon...however you play with these ideas, current science does not go so far.
 
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1. What is the speed of light?

The speed of light is approximately 299,792,458 meters per second in a vacuum. This is considered to be the universal speed limit, as nothing can travel faster than the speed of light.

2. How was the speed of light first measured?

The speed of light was first accurately measured by Danish astronomer Ole Rømer in 1676. He observed the moons of Jupiter and noticed that the time it took for them to orbit the planet varied depending on the distance between Earth and Jupiter. This allowed him to calculate the speed of light using the known distance between Earth and Jupiter.

3. Can the speed of light be exceeded?

No, according to Einstein's theory of relativity, the speed of light is the maximum speed at which all matter and information in the universe can travel. Any attempt to exceed this speed would require an infinite amount of energy.

4. How does the speed of light affect time and space?

According to Einstein's theory of relativity, time and space are relative and can be affected by the speed of light. As an object approaches the speed of light, time slows down and length contracts in the direction of motion. This phenomenon is known as time dilation and explains why time seems to move slower for objects traveling at high speeds.

5. Is the speed of light constant?

Yes, the speed of light is constant in a vacuum and does not change. However, it can be slowed down when passing through different mediums such as air, water, or glass. This is due to the particles in these mediums interacting with the light, causing it to travel at a slower speed.

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