Relative velocity of electron moving

In summary, the concept of relative velocity with respect to a photon is not possible because a photon does not have a rest frame. Therefore, the question cannot be answered.
  • #1
rajan rana
2
0
an electron is moving with a velocity of 0.85c in the same direction as that of photon.the relative velocity of the electron with respect to photon is... and why?
 
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  • #2
From the electrons frame, the photon moves away at c. This is because light ALWAYS moves at c relative to an inertial frame.

From an observer at rest, the light moves away from the electron at 0.15 c.
 
  • #3
rajan rana said:
an electron is moving with a velocity of 0.85c in the same direction as that of photon.the relative velocity of the electron with respect to photon is... and why?

This question "with respect to the photon" cannot be answered, because it requires that one transforms to the photon's REST FRAME", and we can't do that!

Zz.
 
Last edited:
  • #4
Just to put my oar in (and basically repeat what Drakkith and ZapperZ said) when we talk about "A"s velocity "relative to B", we mean A's velocity as measured in B's rest frame. As ZapperZ said, it is impossible to talk about any motion "relative to a photon" because a photon does NOT HAVE a "rest frame". On the other hand, the speed of a photon relative to anything that does have a rest frame is c, as Drakkith said.
 
  • #5
thanks for replying sir. but the answer given is -ve c is it right
 
  • #6
rajan rana said:
thanks for replying sir. but the answer given is -ve c is it right

You appear to not have understood the responses that you were given.

Whoever gave you that "answer" have not understood the flaw in your question.

Zz.
 

What is relative velocity?

Relative velocity is the velocity of an object in respect to another object.

How is the relative velocity of an electron moving calculated?

The relative velocity of an electron moving is calculated by subtracting the velocity of the reference point from the velocity of the electron.

What factors affect the relative velocity of an electron moving?

The relative velocity of an electron moving is affected by the velocity of the reference point, the direction of motion, and any external forces acting on the electron.

Can the relative velocity of an electron moving exceed the speed of light?

No, according to Einstein's theory of relativity, the speed of light is the maximum speed limit in the universe. Therefore, the relative velocity of an electron moving cannot exceed the speed of light.

How does the relative velocity of an electron moving impact its behavior in an electric field?

The relative velocity of an electron moving affects its behavior in an electric field by determining the magnitude and direction of the electric force acting on the electron. The faster the relative velocity, the greater the electric force.

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