Lorentz Transformation Question

AI Thread Summary
The discussion revolves around simplifying the expression I' = x'^2 - (ct')^2 using Lorentz transformations. Participants clarify that x' and t' should be expressed in terms of x and t, specifically using the correct boost equations. A common mistake noted is substituting 'c' instead of 'v' in the transformations, which led to an incorrect result of I' = 0. Ultimately, it is confirmed that the quantities I and I' are equal, emphasizing the consistency of the Lorentz transformation across different frames. Understanding this relationship is crucial for grasping the implications of special relativity.
Kunhee
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Homework Statement


For an event occurring at (x,t),
consider the quantity I = x^2 - (ct)^2
Find a simple expression for this in the S' frame: I' = x'^2 - (ct')^2
How are I and I' related, and why is this noteworthy?

The Attempt at a Solution


So the question is under "Lorentz Transformation" and I must
simplify I' = x'^2 - (ct')^2.

I am not sure if this is the way to go about it, but should I find
the equation in the form of "c =" ?
 
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You should write x' and t' in terms of x and t by using Lorentz transformations (specifically, what is called a boost in the ##x## direction).
 
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Likes Kunhee
When I do, do I find the quantities equal?
 
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Likes Lucas SV
I plugged into
I' = x'^2 - (ct')^2

x' = y(x - ct)
t' = y(t - cx/c^2)
* y is Lorentz Factor

and I get that I' = 0
 
Kunhee said:
When I do, do I find the quantities equal?
Yes, you should find that they are equal, I=I'. You got 0 because you wrote c instead of v in the Lorentz transformations. They are:

x' = y(x - vt)
t' = y(t - vx/c^2).
 
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I see, thank you!
 
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