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  • So say it's the holiday season and you're

  • supposed to be all festive and jolly

  • but you're more of the grinchy type.

  • And all you want to do is wield sharp objects against things.

  • So you're doing your holiday partly

  • by making paper snowflakes.

  • Regardless of your feelings about the holidays,

  • slicing things into tiny bits is an art and one

  • that you are taking very seriously.

  • Like, some people make so-called paper snowflakes

  • by folding a piece of paper in half, and then in half

  • again and again and then cutting it up.

  • But paper snowflake connoisseurs know that real snowflakes have

  • six-fold symmetry and this thing has four-fold symmetry.

  • That would never happen in nature.

  • So you do it the real way by folding your paper

  • in half twice, and then folding it in thirds.

  • Or I suppose you could do it by halves, and then thirds,

  • and then halves again.

  • But you can't do thirds, then halves, then halves again,

  • because what would that even mean?

  • But you do notice your first halves

  • can be at any angle you want.

  • You don't need to line it up or anything.

  • It's kind of funny because to get six-fold symmetry,

  • you need to fold it into 12 sections.

  • And if you fold into six sections,

  • you only get three-fold symmetry.

  • Which is actually a way that snowflakes occasionally form,

  • so those are allowed.

  • And then there are even sometimes 12 fold

  • symmetric snowflakes in nature, which

  • means you can fold again to make that.

  • But never four-fold.

  • The problem with folding paper is

  • that the thickness starts to get in the way.

  • This makes points uneven, which might actually be more natural.

  • Most real snowflakes are actually

  • pretty lumpy and flawed, just those

  • aren't the ones people take and share pictures of.

  • And that's not the kind of snowflake

  • you want to make either.

  • I mean, when you fold this angle into thirds,

  • this flap is under this one.

  • So it has to be a little shorter,

  • at least if this edge lines up here.

  • But maybe if you folded one in front and one

  • in back accordion style, then all the sections

  • could be the same.

  • In fact, then instead of folding it in half like this

  • you could do each section back and forth.

  • And that's much better.

  • Or maybe you get bored of six-fold symmetry

  • and decide to make a five-fold one.

  • Well, if we need five lines of symmetry, that's 10 sections.

  • So first you fold it in half and then

  • you need to fold this into fifths.

  • You can use a protractor or just kind of eyeball it and adjust.

  • There, five-fold snowflake.

  • In fact, if you get good at folding

  • this initial five-fold wedge, you

  • can do a single straight cut on it to get a star super quickly.

  • Or you can slice it and get lots of stars,

  • or cut fancy stuff in there for fancy snowflakes.

  • Stars count as holiday spirit, right?

  • And you can do seven-fold symmetry in a similar way

  • but you're probably going to need your emergency protractor.

  • But you could do nine-fold without a protractor

  • because you can do thirds, and then thirds again.

  • And if you can do fifths without a protractor,

  • you can do tenths too, because it's a fifth times a half.

  • Look, I said happy holidays but I never said which one.

  • Valentine's Day is totally a winter holiday.

  • 11 is prime, though, so time for the protractor again.

  • Look, prime factorization.

  • OK.

  • So now theoretically you can get all sorts of end-fold symmetry,

  • but what about rotational symmetry?

  • There's no mirror lines, which means no folding,

  • so does it even make sense as a question?

  • Cutting a snowflake design efficiently

  • is all about putting the same cut lines on top of each other

  • so you only have to cut them once.

  • So how do you take a rotationally symmetric design

  • like this and put all the layers on top of each other

  • without overlapping anything else?

  • Maybe it's not surprising to see that to get stuff

  • with rotational symmetry to line up, you rotate it.

  • If you make a cut to the center then you can rotate all the way

  • and roll the symmetry up into one unique thing.

  • It's hard to draw accurate rotational symmetry by hand.

  • But now I can symmetrize this badly-drawn swirl design.

  • So to cut out a paper swirl flake, start with a cut,

  • then curl your paper into a cone.

  • You can swirl around once or twice or more.

  • But the important thing is to make sure

  • the cut lines up with itself, because as far as symmetry

  • is concerned, that cut doesn't exist.

  • I like to tape it in place so it doesn't unroll, then cut stuff

  • out.

  • I find that spiraly things work well.

  • Folding the paper is a good way to start a cut,

  • but remember that folding creates symmetry.

  • So I like to use it just to get the scissors in there

  • and then do something asymmetric.

  • Voila, snowflake.

  • For a starflake swirlflake you'll

  • have to curl your paper around five times, or four times.

  • It's funny because I think of this as going around

  • once but really it's going around twice,

  • and a flat sheet of paper goes around once.

  • Anyway, yeah, do that.

  • And then give it a nice spiraly arm or two.

  • You can make a nice fancy starflake swirlflake

  • snowflake, awesome flake.

  • Of course, from snowflakes it's only one small step to folding

  • and cutting freeze patterns, and then wallpaper patterns and,

  • hey, what kind of patterns do you

  • get if you start by folding stuff into a [INAUDIBLE] strip?

  • And then maybe you'll want to start folding and cutting

  • spheres and everything will be a mess,

  • so you'd better just stop now.

So say it's the holiday season and you're

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B2 中高級

雪花、星花和漩渦花。 (Snowflakes, Starflakes, and Swirlflakes)

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    林宜悉 發佈於 2021 年 01 月 14 日
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