Placeholder Image

字幕表 動画を再生する

  • In our universe, when you change from a non-moving perspective to a moving one, or vice versa,

  • that change of perspective is represented by a what's called Lorentz transformation,

  • which is a kind of squeeze-stretch rotation of spacetime that I've mechanically implemented

  • with this spacetime globe.

  • The spacetime globe illustrates many of the features of special relativity, like length

  • contraction and time dilation and the twins paradox is...

  • The twins paradox is a linguistically confusing situation that can arise in special relativity

  • when somebody learns about time dilation - the fact that in our universe,...(that) things

  • moving relative to each other each view the other's time as passing more slowly (which

  • is calledtime dilation”).

  • As the paradox goesif each person views time as passing more slowly for the other,

  • then if my twin travels away from earth for a while and then comes back, who's actually

  • younger when we meet again?”

  • When you have a potentially confusing situation in relativity, it's really helpful to actually

  • draw a spacetime diagram to understand what's going on.

  • So we'll use the spacetime globe.

  • The situation is this: you're sitting on earth for, let's say, 12 seconds.

  • Your twin travels out at a third of the speed of light for what you measure to be 6 seconds,

  • then they turn around and come back at a third the speed of light for what you again measure

  • to be 6 seconds.

  • So what does your twin think?

  • Well, to understand the situation from their moving perspective we need to transform the

  • spacetime diagram so they no longer appear to be movingthat is, so that their worldline

  • is vertical.

  • That's what it means for the spacetime diagram to represent their perspective.

  • Having done so for the outward leg of their journey, it's clear that your twin would say

  • that leg of their journey took them – I dunno, what's that look like?

  • About 5 and 2/3 seconds?

  • And then they turned around and headed back to earth, which corresponds to a different

  • moving perspective.

  • Let's transform things to see how they look from that perspective; that is, so that the

  • worldline of that leg of the journey is vertical.

  • Having done so, it's clear that your twin would say that the return leg of their journey

  • took themagain, looks like about 5 and 2/3 seconds.

  • So from the perspective of your twin, their whole journey takes 5.66+5.66=11.3 seconds,

  • while for you it took 12 seconds.

  • So you, who stayed put, are older.

  • The key to why the two of you do in fact age differently is that your traveling twin has

  • two separate perspectives during their journey, while you, staying put, only have one.

  • And that's the resolution to the linguistically confusing twins situation, demonstrated with

  • a hands-on spacetime diagram - I want to say that even though I knew and understood the

  • math and physics behind this, my belief in the true-ness of the solution to the twins

  • paradox went up a million times the first time I actually measured the times each twin

  • experienced with my hands, in real life like this.

  • So I hope that I've managed to capture even a small percentage of that gut level belief

  • in this video.

  • You also don't have to use Lorentz transformations to figure out the solution to the twins paradox

  • if you know about proper time (spacetime intervals), because spacetime intervals are/proper time

  • is a way of calculating the time that passes for somebody according to their perspective.

  • So in the case of your twin, on each leg of their journey they take 6 seconds to travel

  • the distance light would travel in two seconds (or, 2 light-seconds), and taking the square

  • root of the difference of those numbers squared gives a proper time of 5.66 seconds for each

  • leg of their journeyexactly what we measured on the spacetime globe!

  • If you're interested in a little more insight into how theeach person views time as

  • passing more slowly for the otherpart of the paradox actually makes sense (and I

  • promise, it does), I have another pair of videos diving into more detail on the twins

  • paradox that I highly recommend you check out!

  • And to deepen your personal understanding of the resolution to the twins paradox, I

  • highly recommend Brilliant.org's course on special relativity.

  • There, you can work through the calculations I've glossed over in a step-by-step guided

  • exploration, giving you essential hand-on experience with spacetime intervals and other

  • tools of relativity along the way.

  • The special relativity questions on Brilliant.org are specifically designed to help you go deeper

  • on the topics I'm including in this series, and you can get 20% off of a Brilliant subscription

  • by going to Brilliant.org/minutephysics.

  • Again, that's Brilliant.org/minutephysics which gets you 20% off premium access to all

  • of Brilliant's courses and puzzles, and lets Brilliant know you came from here.

In our universe, when you change from a non-moving perspective to a moving one, or vice versa,

字幕と単語

ワンタップで英和辞典検索 単語をクリックすると、意味が表示されます

B1 中級

双子パラドックスの実地解説|特殊相対性理論 第8章 (The Twins Paradox Hands-On Explanation | Special Relativity Ch. 8)

  • 2 0
    林宜悉 に公開 2021 年 01 月 14 日
動画の中の単語