Absolute light speed or velocity or both?

In summary, the conversation discusses the concept of "absolute" light speed and whether the x and y component velocities of a light beam can be less than c, the speed of light. It is clarified that it is the speed of light that is invariant, not the velocity, and that the components of velocity can indeed be less than c. The conversation also explores the implications of this concept in Einstein's light clock experiment.
  • #1
Faradave
108
0
"Absolute" light speed or velocity or both?

Consider an inverse of Einstein's light clock. On a cartesian plane in a vacuum, a beam of light emanates from the origin at 45 degrees with velocity c. Is it OK that the x and y component velocities are each less than c (i.e. c divided by sqrt 2) or must time adjust to make component velocities also c?
 
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  • #2


Faradave said:
Consider an inverse of Einstein's light clock. On a cartesian plane in a vacuum, a beam of light emanates from the origin at 45 degrees with velocity c. Is it OK that the x and y component velocities are each less than c (i.e. c divided by sqrt 2) or must time adjust to make component velocities also c?
It's the speed of light that is an invariant, not the velocity. The components of velocity can certainly be less than c.
 
  • #3


Doc Al said:
The components of velocity can certainly be less than c.

Then Einstein's light clock gets a bit confusing. Say light radiates up the y-axis to a reflector and back (in the frame of a rocket traveling along the x-axis with speed v.) An observer stationary wrt the Cartesian plane sees the light take a diagonal path and we impose c as its speed limit. Fine. But the folks in the rocket don't see that their vertical light speed component can "certainly be less than c". They get their time dilated, from the stationary observer's perspective. Thus, my original post.
 
  • #4


Faradave said:
But the folks in the rocket don't see that their vertical light speed component can "certainly be less than c".
In the frame of the rocket, the light only travels vertically, so its vertical component = c. The light travels diagonally only in the "stationary" frame, so in that frame the components are less than c.
 

1. What is absolute light speed?

Absolute light speed refers to the maximum speed at which light can travel in a vacuum, which is approximately 299,792,458 meters per second. It is considered to be the fastest speed possible and is a fundamental constant in physics.

2. How is absolute light speed measured?

Absolute light speed can be measured using a variety of techniques, including interferometry, laser interferometry, and time-of-flight measurements. These methods involve measuring the time it takes for light to travel a known distance and using that to calculate its speed.

3. Is absolute light speed the same as the speed of light?

Yes, absolute light speed and the speed of light are interchangeable terms. The speed of light is a constant, meaning it does not change regardless of the observer's frame of reference. It is also considered to be the maximum speed at which anything in the universe can travel.

4. Can anything travel faster than absolute light speed?

According to Einstein's theory of relativity, nothing can travel faster than absolute light speed. This is because as an object approaches the speed of light, its mass increases infinitely, making it impossible to reach or exceed light speed.

5. Why is absolute light speed important in physics?

Absolute light speed is important in physics because it is a fundamental constant that plays a crucial role in many theories and equations. It helps us understand the behavior of light, space, and time, and is used in various fields such as astrophysics, quantum mechanics, and cosmology.

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