Twin Paradox Explanation Needed

In summary, the twin paradox is a thought experiment in which the traveling twin ages less than the twin who stays on Earth. This is due to the effects of time dilation, where each twin sees time passing slower for the other twin. However, from the traveling twin's point of view, the twin on Earth must appear to age faster at some point. This is because the traveling twin experiences more acceleration and takes a shorter path through the 4-dimensional space-time continuum. Further reading on this topic is available for high school students in calculus.
  • #1
jam.muskopf
9
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So in the twin paradox, the traveling twin ages less in the end. According to time dilation, each twin sees time passing in the other twin's frame of reference slower than his own. However, if the twin on Earth is ultimately older, doesn't time have to appear to be moving faster for the twin on Earth at some point in the traveling twin's frame of reference?
 
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  • #2
jam.muskopf said:
So in the twin paradox, the traveling twin ages less in the end. According to time dilation, each twin sees time passing in the other twin's frame of reference slower than his own. However, if the twin on Earth is ultimately older, doesn't time have to appear to be moving faster for the twin on Earth at some point in the traveling twin's frame of reference?

The difference in ages is due to the traveling twin jumping to non-inertial frames. You can find lots of threads on this by searching this forum for "twin paradox".
 
  • #3
so when the twin is in a non-inertial frame, does he perceive the Earth time to be passing faster than his own time?
 
  • #4
jam.muskopf said:
so when the twin is in a non-inertial frame, does he perceive the Earth time to be passing faster than his own time?

Yes. See the section "viewpoint of the traveling twin"

http://en.wikipedia.org/wiki/Twin_paradox
 
  • #5
WAHOOO! Feels good to finally understand the paradox! THANKS A TON MAN!
 
  • #6
jam.muskopf said:
So in the twin paradox, the traveling twin ages less in the end. According to time dilation, each twin sees time passing in the other twin's frame of reference slower than his own. However, if the twin on Earth is ultimately older, doesn't time have to appear to be moving faster for the twin on Earth at some point in the traveling twin's frame of reference?
Yes. If looked at from the point of view of General Relativity then it is all explained. The answer is that all of the time dilation that is observed when the two clocks meet again is due to the acceleration they experience. The younger twin experienced more acceleration.

http://muj.optol.cz/richterek/data/media/ref_str/styer2007.pdf

"How do two moving clocks fall out of sync?" Daniel F. Styer, Pof. Physics, Oberlin University
 
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  • #7
jam.muskopf said:
So in the twin paradox, the traveling twin ages less in the end. According to time dilation, each twin sees time passing in the other twin's frame of reference slower than his own. However, if the twin on Earth is ultimately older, doesn't time have to appear to be moving faster for the twin on Earth at some point in the traveling twin's frame of reference?

It's the difference in path lengths taken through the 4-dimensional space-time continuum. The traveling twin takes a shorter path. You can put clocks along the path of each observer to see how time is passing in the 4-D continuum. Of course acceleration is needed to put the traveling twin on a new path.

If you are racing with someone and you take a short cut to beat him to the finish line, you had to accelerate when you turned off of the main path, but it's the shorter path that won the race.

The sketch to the right shows a sequence of simultaneous 3-D spaces experienced by the traveling twin on the out-going and in-coming trips. But those are just his cross-section views associated with the usual time dilation phenomena. Each twin moves along his own world line at the speed of light, and this suggests the progress along the paths. You can mark equally spaced clock times along the world lines. The sudden jump in time of home-twin, observed from the point of view of traveling twin is just the time dilation phenomena.

Some physicists like to focus on the time dilation phenomena, while other physicists like to focus on the progress along the world lines using the sequence of proper times (with observers moving along their world lines at light speed). Take your pick. Both concepts give you the same results in the end.
TwinParadox4.jpg
 
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  • #8
Notice in the right side sketch (previous post) that when the traveling twin makes his turn to return home, from his point of view the clock at home suddenly speeds up, i.e., jumps to a much later clock time. In effect the home twin appears to move to a new position on his world line at a speed far in excess of the speed of light.

But, that's just the effect of "turning his head" as it were. You can get a similar effect looking through a telescope in the night sky. You swing the telescope from one galaxy to another galaxy light years away, traversing the sky in just a few seconds. Your view moved at a speed far in excess of the speed of light. But, no object really moved. It was just a change in view.

That's the way it is with the traveling twin when he changes his 3-D cross-section view of the 4-dimensional space-time universe.
 
  • #9
Alright, thanks guys that is very helpful. I'm a senior in high school, in my first year of calculus. Any suggestions of reading I can do on my own that would be mathematically understandable at my level? Thanks
 

Related to Twin Paradox Explanation Needed

1. What is the Twin Paradox?

The Twin Paradox is a thought experiment in physics that explores the concept of time dilation in the theory of relativity. It involves two identical twins, one of whom stays on Earth while the other travels at high speeds through space. When the traveling twin returns to Earth, they will have aged less than the stationary twin due to time dilation.

2. How does time dilation work in the Twin Paradox?

Time dilation is a phenomenon in which time passes slower for objects that are moving at high speeds compared to those that are stationary. This is due to the fact that as an object approaches the speed of light, its mass increases and time slows down. In the Twin Paradox, the twin traveling at high speeds experiences time dilation, causing them to age slower than the stationary twin.

3. What is the significance of the Twin Paradox in physics?

The Twin Paradox is significant in physics because it highlights the concepts of time dilation and relativity. It challenges our traditional understanding of time and space, and shows that time is not absolute but relative to the observer's frame of reference. The paradox also has implications for space travel and the possibility of time travel.

4. How is the Twin Paradox resolved?

The Twin Paradox is resolved by understanding that the traveling twin experiences acceleration and deceleration, which creates a difference in their frames of reference. This difference explains why the traveling twin has aged less than the stationary twin upon their return. Additionally, the paradox is resolved by taking into account the effects of gravity on time dilation.

5. Is the Twin Paradox a real phenomenon or just a thought experiment?

The Twin Paradox is a thought experiment that is based on the principles of relativity and time dilation. While there have been experiments that have observed time dilation in objects traveling at high speeds, the scenario of the Twin Paradox has not been observed in real life. However, the principles it explores are essential in understanding the nature of time and space in our universe.

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