Solving SR: Time Dilation & Length Contraction - Planet to Ufo

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SUMMARY

The discussion centers on solving a special relativity problem involving a UFO traveling from one planet to another at 0.8c over a distance of 384,000 km. Participants utilize Lorentz transformations to calculate the time experienced by observers on both the planet and the UFO. The correct time dilation formula is identified as Δt' = γ(Δt - vΔx/c²), where γ = 1/√(1 - v²/c²). The final calculations yield a travel time of approximately 1.25 seconds for the UFO and 2.67 seconds for the planet observer.

PREREQUISITES
  • Understanding of special relativity concepts, including time dilation and Lorentz transformations.
  • Familiarity with the formula for gamma (γ) in special relativity: γ = 1/√(1 - v²/c²).
  • Basic knowledge of speed, distance, and time relationships in physics.
  • Ability to perform calculations involving significant figures and unit conversions.
NEXT STEPS
  • Study the derivation and applications of Lorentz transformations in special relativity.
  • Learn how to calculate time dilation using the formula ΔT = γΔT₀.
  • Explore the implications of the twin paradox in special relativity.
  • Practice solving similar problems involving relativistic speeds and distances.
USEFUL FOR

Students of physics, educators teaching special relativity, and anyone interested in understanding the effects of relativistic travel on time and distance measurements.

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Homework Statement



a ufo travels from one planet to another (distance measured 384000km) at v=0.8c.

1)How long does the trip take according to observer on planet left?

2)How long does the trip take according to observer in ufo?

3) What is the two planets distance measusured my aliens in the ufo?

Homework Equations



I think I have to use the lorrentx transformations.

t'=alpha(u/c)(t-ux/c^2)

t=alpha(u/c)(t'+ux'/c^2)

x=alpha(u/c)(x'+u't)


The Attempt at a Solution



This is my first ever SR question I have done. So I wasnt sure.

I thought that from the original planet the apparent velocity is going to be 0?

so i said the time takes was = 1.83 s?

So then i said using the above formula that alien man thought it would be = 2.69s

As this is wrong I havnt proceeded to the next part. Can you please tell me where i am going wrong and possibly give me some advice as to how to set up these types of questions.

thanks
 
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come on surely someone can help me with this?
 
can someone tell me if I am posting this in the wrong place at least lol?
 
I can try to help. First, you should convert the distance in km to s, i.e. 384,000 km = ?s.
I used c = 3 * 10^8 and got d = 1.28s.

Now, I know that the aliens traveling in the ufo will have the shortest time. I used the spacetime equation

\Delta s^2 = \Delta t^2 - \Delta d^2

in this particular case, d = 0, (this has to do with the distance the 'clock' is from the person (or in this case alien) using the 'clock') I calculated t as distance/velocity so t = 1.6s (this is what I got for part B or 2 of your problem). Do you happen to know if this is the correct answer? If this is right, I may be able to get you to the first part.

Also, let me know if you're using a different value for c (such as 2.998).
 
magicuniverse said:
I thought that from the original planet the apparent velocity is going to be 0?
You are told that the ufo travels at 0.8 c.

so i said the time takes was = 1.83 s?
How did you arrive at this number?
 
Doc Al said:
You are told that the ufo travels at 0.8 c.


How did you arrive at this number?

kk so I know that speed =distance/time

so time = distance/speed = 4.8 seconds. Is that right?
 
magicuniverse said:
kk so I know that speed =distance/time
Good.

so time = distance/speed = 4.8 seconds. Is that right?
No. What's the distance? What's the speed?
 
No. What's the distance? What's the speed?

the distacne is 384000000m
and speed is 0.8*3ee9

when i put this into my calulator i get 1.6
 
Last edited:
magicuniverse said:
also by plugging the numbers in i get the other time to be 8.00s. Is this right?
Don't worry about the time according to the ufo until you've nailed down the time according to the planet.
 
  • #10
and for the other time i get 2.67s is that right?
 
  • #11
magicuniverse said:
when i put this into my calulator i get 1.6
That's better.

magicuniverse said:
and for the other time i get 2.67s is that right?
Will the time for the trip as measured by the ufo be shorter or longer? By what factor? (Hint: The ufo can be treated as a single moving clock.)

Do moving clocks run slow or fast?
 
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  • #12
Doc Al said:
That's better.

Will the time for the trip as measured by the ufo be shorter or longer? By what factor? (Hint: The ufo can be treated as a single moving clock.)

Simply from the twins paradox thing I am going to say that the time is shorter for the moving ufo.
So the time will be 1.25s right?
 
  • #13
magicuniverse said:
Simply from the twins paradox thing I am going to say that the time is shorter for the moving ufo.
What you need is the formula for the time dilation of a moving clock. But yes, the moving ufo clock runs slow (according to the planet clocks)--so the time measured by the ufo will be shorter than that measured by the planet.
So the time will be 1.25s right?
How did you get this number?
 
  • #14
Doc Al said:
What you need is the formula for the time dilation of a moving clock. But yes, the moving ufo clock runs slow (according to the planet clocks)--so the time measured by the ufo will be shorter than that measured by the planet.

How did you get this number?

I plugged numbers into a fomula in my book.
 
  • #15
magicuniverse said:
I plugged numbers into a fomula in my book.
What formula?
 
  • #16
t' = (t-ux/c^2)/root(1+u^2/c^2)


is it wrong?
 
  • #17
magicuniverse said:
t' = (t-ux/c^2)/root(1+u^2/c^2)


is it wrong?
That's one of the Lorentz transforms, but with a typo. Here's the corrected version:
\Delta t' = \gamma(\Delta t - v\Delta x/c^2)

Where:
\gamma = \frac{1}{\sqrt{1 - v^2/c^2}}

But even simpler is to recognize that moving clocks run slow by a factor of \gamma:
\Delta T = \gamma \Delta T_0

(Either way will work.)
 
  • #18
but putting all the numbers into the formula you gave me gives 2.67s? what am i doing wrong?
 
  • #19
magicuniverse said:
but putting all the numbers into the formula you gave me gives 2.67s? what am i doing wrong?
I gave two formulas. Which one are you using? (Not that it matters--both will give the same answer.)

Looks to me like you are somehow reversing the primed and unprimed coordinates. What are you plugging in for \Delta t and \Delta x? What do you get for \gamma?
 
  • #20
i get 5/3 for lambda. is that wrong?
 
  • #21
no sorry I am lying i get lambda to be 0.6 so t =0.96s is this right?

and i also get the distance to be 2.09m is that correct?
 
Last edited:
  • #22
magicuniverse said:
i get 5/3 for lambda. is that wrong?
You mean gamma, not lambda. That's correct.
magicuniverse said:
no sorry I am lying i get lambda to be 0.6 so t =0.96s is this right?
Gamma is always greater than 1; but, yes, that time is correct.

and i also get the distance to be 2.09m is that correct?
Redo that calculation.
 

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