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  • [Hannah] Do you want to share this sandwich with me, Brady?

  • [Brady] Uh, do you know what? I kinda do.

  • [H] It looks really appetizing. [B] It's nice.

  • [H] Don't you think? [B] Yeah.

  • [H] This bread's been squashed in my bag a little bit.

  • [B] Yeah, I love that you went for white bread. Like, you didn't, you know, go all trendy and go...

  • [H] No. None of that, none of that. I want full-on carbs, that's what I want.

  • Okay, if we're gonna do this fairly then, Brady, I think we need to cut the sandwich in half...

  • But that does leave me with a bit of a quandary, because how do I know exactly

  • what a half a sandwich is?

  • Because look, you know, you've got this bread's sort of lopping around there,

  • the ham isn't exactly even...

  • You know, how do you- how do you...?

  • If this sandwich is a bit badly made, as I am prone to doing,

  • how can you work out where halfway is?

  • [B] Well, first of all, how are we defining half a sandwich?

  • What is half a sandwich?

  • [H] I want exactly half of this slice,

  • I want exactly half of the ham,

  • and I want exactly half of that slice.

  • [B] Does the cut have to be straight? [H] Oh yeah, and only one cut.

  • And it doesn't matter where the sandwich is.

  • I want it even if it's like that.

  • But thankfully, the Ham Sandwich Theorem can help us!

  • So, the Ham Sandwich Theorem says that

  • when you have three objects in three-dimensional space,

  • you will be able to cut each of them exactly in half using only one cut.

  • And.. The best way to explain this is by building up from just one slice.

  • Let's say that you want to cut this slice of bread in half.

  • But... Let's imagine someone's already come past and taken a bit of a nibble off of it.

  • Just so it's a bit harder. 'Cus, you know.

  • [B] Okay.

  • [H] Hmm, that's a bit better. Okay. Uh, now-

  • [B] So it's less obvious where to cut. [H] Less obvious where to cut.

  • Let's muck it up a little bit more, here we go.

  • Less obvious where to cut. Right, we want to get this exactly in half,

  • this slice of bread.

  • Now if I hold the knife here,

  • all of the bread is on this side of the knife.

  • And if I move the knife over there,

  • now, all of the bread is on this side of the knife.

  • So what that means is that there must be some point in the middle

  • where exactly half of the bread is on this side,

  • and half of the bread is on that side.

  • [B] The crossover point. [H] Exactly, exactly.

  • But that was me holding the knife at this angle

  • and moving through that way.

  • It would also be true if I heard the knife that way,

  • or... [Cracks up] Slightly more difficult to get the angles, but that way.

  • So any angle at which I hold the knife, I can guarantee that there's gonna be some point

  • where half of the bread is on either side.

  • Regardless of the fact that the bread is all, kind of, messed up and been eaten by mice.

  • So! That's fine.

  • Now, let's imagine that we add in our ham.

  • Let's make it a little bit more difficult, let's kinda fold the ham up in a slightly awkward way...

  • [H] [Laughs] [B] Cool.

  • [H] Yum. [B] Nice. I'm going off the sandwich a bit.

  • [Both laughing]

  • [H] Is it 'cus I keep touching it?

  • [B] I hadn't thought about that! Now I'm definitely off it.

  • [Both continue laughing]

  • [H] "Welcome to cooking with Hannah!"

  • [B] Right, yeah.

  • [H] We already know that we can cut this slice of bread here at any angle, okay?

  • So what we can do is we can pick a point on this bread,

  • let's say like that,

  • where we know that 50% of the bread is on this side,

  • and 50% is on that side.

  • But, what you'll notice is that all of our ham, now, in this example, is on this side of the knife.

  • But because we know that we can cut this bread at any angle,

  • You can rotate this knife so that now all of the ham is on this side.

  • Which means that there must be a point in the middle,

  • Where exactly half of the ham is on this side of the knife and half on the other side?

  • [B] There's one magic line. [H] At least one magic line.

  • Now, the third component: this extra slice of bread. Yum! Brady, look at this delicious sandwich, I've made!

  • [B] Nice, nice. [H] Okay.

  • You can apply the same principles.

  • It's slightly trickier to explain this one, but the idea is the same.

  • Except in this case, you now have the angle of the knife to play with as well.

  • So you're sorta sweeping over, turning it around and rotating it that way, and that way.

  • There should be a way where you can make a cut through all three perfectly in half.

  • One small thing; we know for a fact that this line exists.

  • The theory doesn't actually help you find it very much. So, there's that.

  • [B]: Who came up with this? [H]: It was originally suggested by Steinhaus and Banach.

  • That's Banach, from a Banach Tarski thing,

  • where you can rearrange a sphere to make two spheres that look basically the same as the original one did.

  • And, but then it was proved in the N dimensional case, by Stone and Tukey.

  • [B]: There seem to be a lot of mathematical problems that center around things that happen in lunch rooms and tea breaks, isn't there?

  • [H]: Weird, huh? I know. [B]: Right.

  • [H]: Exactly.

  • Yeah, you'd always think that maybe that was the most productive part of a mathematicians day.

  • See these five circles on the screen?

  • Do you think you can draw a line through them, that will divide them into two equal parts with the same area and perimeter?

  • ***Spoiler Alert***

  • Apparently the answer is yes, and it uses the Ham Sandwich problem that you just watched a video about.

  • If you'd like to find out more about this, go to brilliant.org/numberphile

  • Brilliant is a website full of science and maths, quizzes and puzzles, and things like that.

  • That will help you not just see mathematics and science in action, but really understand it all better.

  • Now if you go to brilliant.org/numberphile

  • The first 314 viewers of this video who do so it could get 20% off Brilliant's Premium Package.

  • Which is where all the best stuff is. It's really worth a look.

  • brilliant.org/numberphile And our thanks to them for supporting this episode. They're really good

  • Just go and have a look; see what you think.

[Hannah] Do you want to share this sandwich with me, Brady?

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A2 初級

火腿三明治問題 - Numberphile (Ham Sandwich Problem - Numberphile)

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    林宜悉 發佈於 2021 年 01 月 14 日
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