Time Dilation Equation: Clarifying Variables

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Discussion Overview

The discussion revolves around the time dilation equation, specifically clarifying the variables involved in the equation t=t(p)*γ, where γ is expressed as (1/√(1-v^2/c^2)). Participants seek to understand the definitions and implications of each variable in the context of special relativity.

Discussion Character

  • Technical explanation

Main Points Raised

  • One participant presents the time dilation equation and requests clarification on the variables involved.
  • Another participant suggests that a term is missing in the equation and provides definitions for t, t(p), v, and c.
  • A different participant questions the interpretation of v, suggesting it refers to the speed of the reference frame of light.
  • There is an agreement that the speed v is relative to a reference frame, with examples often involving a train or spaceship.

Areas of Agreement / Disagreement

Participants generally agree on the definitions of the variables but there is some uncertainty regarding the phrasing and interpretation of v in relation to the reference frame.

Contextual Notes

There is a potential ambiguity in the interpretation of the speed v and its relation to the reference frame, which may depend on specific contexts or examples used.

Dgonzo15
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Hello, I've recently come across the equation for time dilation, which is t=t(p)*γ, which is
t=t(p)*(1/√(v^2/c^2)). Can someone please clarify what each of these variables mean?
 
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I think you are missing a ( 1- ... ) in your denominator.

In any case:

t=time measured to pass in the moving frame
t(p)=proper time measured to pass in a still frame
v=speed of the moving frame measured from the still frame
c=speed of light in a vacuum
 
From what I know, v is the speed of the reference frame which the light is on--is this what you meant?
 
Yes -- I've not seen it phrased like that, but I think you are saying the same thing. In textbooks it is often a train or a spaceship said to be moving at some speed. That speed is given relative to a reference frame, and represents "v" in the equation.
 

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