Understanding Light: Puzzled by Velocity?

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In summary, Maxwell's theory states that the speed of light is always constant, but quantum mechanics suggests that it may not be.
  • #1
Prasanna Suman
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Puzzled by light?

Why has light same velocity when measured from any frame?

I know about Maxwell's theoritical deduction (but not clearly) and the Michelson-Morley experimental deduction.

When understanding light I tried to make it analogous with sound. It just further degraded the situation.

Can anyone help me? :cry:
 
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  • #2
Prasanna Suman said:
Why has light same velocity when measured from any frame?

I know about Maxwell's theoritical deduction (but not clearly) and the Michelson-Morley experimental deduction.

what, exactly, do you know about Maxwell's position on this?

When understanding light I tried to make it analogous with sound. It just further degraded the situation.

well, that's a mistake. sound moves with the air. we know it when air is blowing past us and will not expect the speed of sound (relative to us standing in the breeze) to be the same in all directions.

now, think about this: would you know it if a vacuum was moving past your face? compared to a "stationary vacuum"? is there any physical meaning to the movement (or stationarity) of a vacuum?
 
  • #3
Asking why the speed of light is always constant is kind of like asking why things always fall down or why the angles in a triangle always add up to 180 degrees. No answer really exists. :)

Einstein assumed the speed of light was constant and then derived special relativity, which provided experimentally verifiable predictions. Because many of the predictions turned out true, we assume the underlying postulates are all true. But, in fact, one of the predictions is that no influence can travel faster than light, and thanks to quantum entanglement the jury is still out on this one.

Then again, one can formulate other postulates and thereby _derive_ the fact that the speed of light is always constant. But then one could ask why those postulates are "true."

Until a more complete theory of spacetime can be formulated which encapsulates special & general relativity as well as all of quantum mechanics (including entanglement) no one will have a better answer to that question.
 

1. What is the speed of light and why is it important in understanding light?

The speed of light is approximately 299,792,458 meters per second in a vacuum. It is important because it is the fastest possible speed in the universe and plays a crucial role in many scientific theories and equations related to light and energy.

2. How does light travel and what is its behavior?

Light travels in a straight line, known as a ray, and can also exhibit properties of both waves and particles. Its behavior can be described by the principles of reflection, refraction, diffraction, and interference.

3. What is the electromagnetic spectrum and how does it relate to light?

The electromagnetic spectrum is the range of all possible wavelengths of electromagnetic radiation, including light. Light is just one part of this spectrum, with a specific range of wavelengths that are visible to the human eye.

4. How does the speed of light change in different mediums?

The speed of light changes depending on the medium it is traveling through. It travels slower in materials such as water or glass, and even slower in denser materials like diamonds. This is due to the interaction between light and the particles in the medium.

5. What is the relationship between the speed of light and time?

According to Einstein's theory of relativity, the speed of light is constant and does not change with time. However, the perception of time can be affected by the speed of an observer relative to the speed of light, as seen in the phenomenon of time dilation.

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