Free particle in Minkowski spacetime

AI Thread Summary
A free particle moving in the x direction through Minkowski spacetime can be parametrized in terms of its proper time τ. The correct expressions for the world-line are t = τγ and x = Vτ/γ, where γ is the Lorentz factor. To derive these equations, one must express τ as a function of t and V, then invert it. Participants in the discussion confirm the validity of these equations and express their understanding of the problem. This approach provides a clear solution to the parametrization of the particle's world-line.
coopre
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Homework Statement



A free particle is moving in the x direction through Minkowski spacetime,
and has velocity V as measured by a stationary observer at x = 0; t = 0. Express
the particle's world-line parametrically in terms of V , parametrized by the particle's
proper time 

Homework Equations


unknown


The Attempt at a Solution



Help I have been stuck on this problem for hours now, and what I keep getting is wrong so idk where to start now please help!
 
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welcome to pf!

hi coopre! welcome to pf! :wink:

you're looking for a parametrisation (x,t) = (x(τ),t(τ)), where τ is the proper time of the particle

(y and z will be constant)

you know (x,t) = (Vt,t) …

so find τ as a function of t (and V), then invert it to get t as a function of τ (and V) …

what do you get? :smile:
 
I was getting confused on this one as well; it seemed too easy. My solution turned out to be:

t = τγ, and x = Vτ/γ, by using dx/dt = γ dx/dτ.

Hopefully this is correct, helpful, or both.
 
hi camron_m21! :smile:
camron_m21 said:
t = τγ, and x = Vτ/γ,

one of them is right! :wink:
 
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Thread 'Help with Time-Independent Perturbation Theory "Good" States Proof'

(Disclaimer: this is not a HW question. I am self-studying, and this felt like the type of question I've seen in this forum. If there is somewhere better for me to share this doubt, please let me know and I'll transfer it right away.) I am currently reviewing Chapter 7 of Introduction to QM by Griffiths. I have been stuck for an hour or so trying to understand the last paragraph of this proof (pls check the attached file). It claims that we can express Ψ_{γ}(0) as a linear combination of...
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