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  • We're going to talk about triperfect numbers. Triperfect numbers

  • We've heard of perfect numbers, haven't we? We've done that on Numberphile before. It was one of our first ones, wasn't it?

  • I think we need to do a quick . . .

  • recap of what a perfect number is because that's going to be relevant to what a triperfect number is.

  • So a perfect number is a number like six. Six is a perfect number and that's because factors of 6 are:

  • 1, 2, 3, and 6 itself.

  • In fact, what we're going to do: we're going to ignore the number itself. If we add up the other factors:

  • So we'll have 1 + 2 + 3.

  • We're going to end up with the original number. We're going to have 6.

  • The next perfect number is 28, and it works the same way.

  • If you look at the factors of 28 and add them up you'll get the original number.

  • The next one is going to be 496: that's a perfect number. The next one after that is 8128, and they keep going, right.

  • So they are quite rare. We think there's infinitely many of them, but we've found 50 so far.

  • The largest one we've found is the most recent, which is a perfect number that is 46 million digits long.

  • So we do think there's infinitely many of them.

  • Although we haven't proven that to be true, and all the perfect numbers we've found are even. We haven't found an odd perfect number yet.

  • So that's something that hasn't been proven yet.

  • But this definition I gave you was kind of weird because I ignored the number itself.

  • So I said out of all the factors except the number itself

  • You could just add all the factors including the number itself. That's perfectly fine,

  • and then you could say a perfect number is: you add up all the factors and you get double the original number. That's absolutely fine.

  • What happens if we add up all the factors and get triple the number?

  • That is a triperfect number. Well, the smallest triperfect number is 120.

  • If we look at the factors of 120,

  • you have:

  • and we'll include 120 itself.

  • So those are the factors of 120 and if you add them up you will get 360.

  • You will get 3 times the original number. So that is the first try perfect number.

  • Let me write out the next few. Let's start a list here with 120 and the next one is 672.

  • The next triperfect number after that is 523 776.

  • The next one after that is 459 818 240.

  • The next one after that is 1 476 304 896.

  • and the next one after that—I might put this one in—I'll put it here:

  • So I've got six there, written out and that's all of them.

  • That's all we know and we also think that's a complete list. We think there's finitely many of them.

  • We think there's six of them only. That is a complete list.

  • There are six triperfect numbers. Now, that's not proven, but we really do believe that this is a complete list.

  • Couple of reasons for this.

  • We have searched for them, and we've searched quite a long way. We've searched huge numbers,

  • like numbers that are 350 digits long, like really big numbers, but they just stop.

  • So we have a triperfect number in the hundreds. We have triperfect numbers in the thousands.

  • We have them in the millions.

  • We have them in the billions,

  • and then they just stop and it would be really weird if there was a some . . . some . . . some sort of massive triperfect number

  • so there's this massive, massive gap and then another triperfect number suddenly appears.

  • That would be really weird if that's true. Now we don't know that this is a complete list,

  • but it would be really weird if it wasn't a complete list. And there is other reasons why we think

  • this is complete list because it's also related to

  • perfect numbers. In fact it's related to odd perfect numbers. If you remember I said we haven't found any odd

  • perfect numbers yet.

  • And there is a relation between odd perfect numbers and triperfect numbers.

  • If you had a number. Let's just call it n, and if that is odd perfect, then 2n is triperfect.

  • So that means that if we do find an odd perfect number one day, and it's going to be massive if we ever find it.

  • If we find it one day, then automatically we're going to find a new triperfect number.

  • So either we're going to find this odd perfect number and this list is not complete after all,

  • or this list is complete which means that aren't any odd perfect numbers,

  • which we also believenot provenbut we strongly believe that's true.

  • BRADY: James, are there quadperfect numbers?

  • I'm glad you asked, because yes, absolutely.

  • So there are 4-perfect numbers, 5-perfect numbers. Shall I show you them. We can look at them. I've got them. Yeah.

  • BRADY: That wasn't set up! I thought that was a real question.

  • The smallest 4-perfect number that we know is 30 240.

  • So if you look at the factors of that number and add them up

  • you'll get four times the original number.

  • There are 36 known 4-perfect numbers, and then the list just stops again, and then we can't find any more,

  • so we think, again, we've got a finite list here, and we think we have all

  • the 4-perfect numbers. You can take it a step further, of course.

  • Look at 5-perfect numbers. The smallest 5-perfect number is 14 182 439 040.

  • There's sixty five of those, that we know of, that we've found, and again, it's the same thing.

  • It looks like it's a finite list because we found 65 of them, and then it just stops and we can't find any more.

  • So we think that's a finite list as well. Same is true for 6-perfect numbers and 7-perfect numbers.

  • We think we found a complete list then they just stop.

  • >>BRADY: If you love numbers, and I think maybe you do because you're here watching numberphile

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  • It's one of my favorites and you can see here a few problems specifically about perfect numbers

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  • Our thanks to them for supporting this episode and I'll include in the description

  • Some links to some excellent stuff on brilliant. You might wanna have a look at

We're going to talk about triperfect numbers. Triperfect numbers

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