See part 2 at kzitem.info/news/bejne/zWudu6Z6oGJiloY
@achtsekundenfurz7876
2 жыл бұрын
I think I know where the round cake is going, namely that "cutting at random" isn't defined rigorously enough. (Spoilers below) You could pick (1) two points on the circumference uniformly, or (2) an angle and a distance from the center uniformly, or (3) an angle and a _point inside the cake_ uniformly, and those won't be the same distributions. For example, (1) will produce many very uneven cuts, 50% where the endpoints are at most 90° apart, (2) will produce fewer (50% will have the endpoints at most 120° apart), and (3) still fewer, since the very uneven cuts are even less common than in option (2).
@Bibibosh
2 жыл бұрын
i like the math-matition teacher guy. he reminds me of a country singer.
@Henrix1998
2 жыл бұрын
cQ is a risky ending to an url
@Periwinkleaccount
2 жыл бұрын
@@Henrix1998 why?
@dresden3913
2 жыл бұрын
You should make a video over imaginary numbers and how truly complex they can be
@gordoinsufrible5498
2 жыл бұрын
They clearly knew what they were doing with that title
@imveryangryitsnotbutter
2 жыл бұрын
It's a really crappy reference
@randybobandy9208
2 жыл бұрын
Noooo!
@coolbeams6885
2 жыл бұрын
@@imveryangryitsnotbutter makes me sick
@siegfriedkettlitz6529
2 жыл бұрын
I don't get it. Some kind of 3-2-1 meme?
@artemetra3262
2 жыл бұрын
@@imveryangryitsnotbutter AAAAA
@alexhawco2970
2 жыл бұрын
at 1:30 in I'm going to say the chance is 1/3 since this situation is analogous to picking three points on the cake, then picking one of the three points to be the cut and letting the other two be the candles. For every possible triplet of points each piece has a candle exactly when the middle point is chosen as the cut. There is a 1/3 chance of the middle point being picked, hence the answer is 1/3.
@adarshmohapatra5058
2 жыл бұрын
Sound logical argument.
@wulfshade5703
2 жыл бұрын
My thoughts exactly.
@MagruderSpoots
2 жыл бұрын
That was clearer than this video.
@moldysquirrel7135
2 жыл бұрын
At 2:00 I also think 1/3. Continuing now :)
@nathanbrader7591
2 жыл бұрын
My thoughts exactly. He didn't make it very explicit at the start that the uniform selection of positioning was from end of cake to end of cake for both candles and knife (rather than randomly positioning the second candle somewhere in front of the first candle for example) but I assumed he meant that.
@Ovetupp
2 жыл бұрын
I enjoy when Ben shows up on the channel. While the problems he brings are clever, I at least feel like I can wrap my dumb brain around them.
@27122712ful
2 жыл бұрын
The video in which he works with the Mandelbrot Set is absolutely brilliant.
@sillysausage4549
2 жыл бұрын
@@27122712ful it was, and that's kind of my issue. I've not really found his recent efforts that interesting.
@vigilantcosmicpenguin8721
2 жыл бұрын
And who doesn't like a guy who brings cake?
@ArawnOfAnnwn
2 жыл бұрын
@@vigilantcosmicpenguin8721 Diabetics. :p
@Triantalex
8 ай бұрын
??
@0cellusDS
2 жыл бұрын
Imagine if you also needed a letter for the cake. It would also be c. So then you'd be talking about 2 candles, 1 kut and 1 qake.
@eb97
2 жыл бұрын
Laughs in Dutch
@rudiklein
2 жыл бұрын
Writing cut with a 'k' in Dutch is similar to using an additional 'n' in cut. (I've managed to explain this without triggering YT censor sensors).
@SKyrim190
2 жыл бұрын
Hmmmm...qake...
@-AAA-147
2 жыл бұрын
Ah my favorite fps: qake
@ErikOosterwal
2 жыл бұрын
The problem of two candles, one kut, and one qake can be modeled with three pyramids filling a xube. 🤔
@pivotman64
2 жыл бұрын
My thought is that this is equivalent to the problem: "Given three points on a line, if you pick one at random, what is the probability that you pick the middle one." And of course, the answer is 1/3.
@DavidSartor0
2 жыл бұрын
Thank you.
@fonkbadonk5370
2 жыл бұрын
This was my intuition as well, without having formed any proper reasoning for it initially.
@FedericoAOlivieri
2 жыл бұрын
Oh wow. That's a great way to put it.
@nahometesfay1112
2 жыл бұрын
Hey! that's what I did! Now time to melt our minds thinking about the circular cake!
@aleksitjvladica.
2 жыл бұрын
Фала те! Я размишльа на млого по-тежак начин и долего до од прилике 66,66...% да неке. "Размишльа", тоя э подсвесно и размисли се за эдан трен.
@SirWilliamKidney
2 жыл бұрын
Ben Sparks is rapidly becoming one of my favourite numberphile presenters. He has this very gentle "older brother" vibe and presents things in a way that gets me thinking on deeper levels. Great video!
@ClostridiumChampion
2 жыл бұрын
I immediately went to my trusted integrals, and calculated 2 times the integral from 0 to 1 of x*(1-x) dx; so the chance of any candle being to the left of the cut, multiplied by the chance of any candle being to the right of the cut, this for every cut, and multiplied by 2 because it doesn't matter which candle is to the left of the cut, and which is to the right of the cut. This yielded 1/3 as the probability.
@yuchaofan
2 жыл бұрын
that's neat
@amoswittenbergsmusings
2 жыл бұрын
Your integrals look like solutions searching for a problem 😎, I love your approach!
@dylan7476
2 жыл бұрын
Very clever!
@mishael1339
2 жыл бұрын
I went for the same approach right away. A clever argument is neat and all, but in the end of the day if the problem is already well defined, a trick might work or not, but you can try calculating and know pretty fast if it's reasonable to solve that way :)
@rupen42
2 жыл бұрын
If you think of the integral geometrically, I think this is similar to the pyramid approach!
@jameslima9817
2 жыл бұрын
I was confused for a while. 1/3 of the way into a Ben Sparks video and no Geogebra. But eventually it delivered.
@justsignmeup911
2 жыл бұрын
I believe this also proves that the distance between the two candles averages to 1/3rd of the cake length.
@ptorq
2 жыл бұрын
Yes, when I paused this is how I started to go about it in my head. Obviously the chance of the cut being between the two candles is the average distance between the candles, and then I realized that I didn't know how to answer that either. I did think about Monte Carlo methods but then realized there was a much easier way to answer the question, which was to unpause the video.
@stevefrandsen7897
2 жыл бұрын
I really enjoy Ben's manner, humor, topics and explanations.
@Marconius6
2 жыл бұрын
12:26 "And now you're going to record a thousand shots of me randomly cutting a cake" Not gonna lie, was half expecting this to suddenly cut to Matt Parker there...
@aknopf8173
2 жыл бұрын
But then he parkered the "just do it" approach by not just doing it :(
@smokahontaas
2 жыл бұрын
"Being able to draw in 3D is a surprisingly useful skill for a mathematician." - Ben Sparks
@mohammadazad8350
2 жыл бұрын
Proceeds to use geogebra instead
@guccilouie4791
2 жыл бұрын
Is it?
@kindlin
2 жыл бұрын
Another way I was thinking about this, was: With 2 candles, they will segment the cake into 3 separate regions that add up to the total cake. As it's all random, there is no reason to think any region is going to be larger or smaller than any other, so there's no reason to expect the cut to have anything but an equal chance to hit each of the three regions, specifically the region between the two candles, or a 1/3 chance.
@Muhahahahaz
Жыл бұрын
Yep! That’s another way to do it Basically, the expected distance between the candles is 1/3, so you have a 1/3 chance of cutting between them
@sander_bouwhuis
Жыл бұрын
Almost all videos with Ben are very high on my favourites list. Can't wait to see what he'll show us next.
@ostrich_dog
2 жыл бұрын
my thought is the probability of the cut being between the two candles, since the length of the cake is one, is the same as the average distance between the candles. if that's the case then we also know the average distance of two random points on a line through probability
@SampMan87
2 жыл бұрын
When he got to the bit where he was asking whether we had to be able to distinguish one candle from the other or if their identical, I’m reminded of the old physics problems where everything is a sphere of uniform density.
@googoosmd
2 жыл бұрын
Another way to think of the intuition for the "ordering" method is to imagine that instead of two candles and a cut, it's two blue candles and one red candle. Then we'll take out the red candle and cut wherever it landed. Hence, we're really just asking what the chance is that the red candle is the middle one of the three. If we place all three randomly, each candle has a 1/3 chance of being in the middle, so our answer is 1/3. Much more intuitive than the first way I did it, as an integral from 0 to 1 of 2k(1-k) dk... though that also gets the right answer.
@PaulMJohnson
2 жыл бұрын
I enjoy all the Numberphile videos, but I especially enjoy them when Ben is on. The interaction between him and Brody is infectious.
@igNights77
2 жыл бұрын
Here's my method: Suppose the cut is at point X ∈ [0, 1] The probability that a candle is to the left is X. The probability that a candle is to the right is 1 - X. This means that the probability that they are on different sides is: X * (1 - X) + (1 - X) * X which is equal to: 2 * X - 2 * X² Now we are going to divide the [0, 1] interval in segments of length ΔX, and average over each possibility, we get: Σ (2 * X - 2 * X²) * ΔX summing over X going from 0 to 1 by steps of length ΔX. Now we take the limit when ΔX goes to 0, the sum becomes an integral: ∫ (2 * X - 2 * X²) dX from 0 to 1, which is equal to: [ X² - 2/3 * X³ ] evaluated between 0 and 1: ( 1² - 2/3 * 1³ ) - ( 0² - 2/3 * 0³ ) = 1/3 - 0 = 1/3
@ilyasakhundzada6604
2 жыл бұрын
Great! Thanks!
@owens7279
2 жыл бұрын
This is exactly how I did it
@Himineejimineee
2 жыл бұрын
why bother with the finite sum at all..?
@Himineejimineee
2 жыл бұрын
also why write out every step of the grade-school mathematics evaluating the integral..?
@frameratejunky5741
2 жыл бұрын
touch some grass man
@frasercrawford1
2 жыл бұрын
This was a fun one to try before watching. Began by trying a case with N equally spaced discrete candle positions where the knife could cut in a continuous range. Running the numbers gave a general formula for the probability for N positions as (N+1)/(3(N-1)), taking the limit for N -> infinity to get 1/3.
@Himineejimineee
2 жыл бұрын
this is really cool
@Yakoable
2 жыл бұрын
Yeeeees a Ben Sparks video ! Always a pleasure to watch
@harjutapa
2 жыл бұрын
My initial thought was 1/3, and this was my thinking: The two candles divide the cake into 3 segments of random length (the segment to the left of the leftmost candle, the one to the right of the rightmost candle, and the segment between the two candles). The cut will come in randomly on one of those 3 segments. it seems reasonable to assume that, on average, each of those segments would be of equal value. Or put another way, there seems to be no reason to assume that any one of those segments would be bigger nor smaller than any other, on average. Since only one of those segments, the one between the two candles, would satisfy the problem, that gives a result of 1/3.
@kindlin
2 жыл бұрын
That was basically my same thought, as well. But then, I couldn't figure out the problem with this reasoning. Add a cut and a candle randomly on the cake, on average there should be a 50% chance of a candle being on one side or the other of the cut, so adding just 1 more candle you either double up a one of the sides or get your preferred single candle on each side. That would be a 50% chance. But we already know the answer is 1/3. I realized that I can't do those first averages, as on each trial, the cut is almost never going to be right in the middle, so it's not actually a 50% chance for the first candle, nor the 2nd candle, there is some kind of [candle location]^2 happening, which is not being accounted for by averaging the first two, and then adding the last candle.
@caenir
2 жыл бұрын
My thought was 1/3. My thinking: There's 3 things, so surely it's 1/3. Then I also went: Maybe it's a pi related thing because everything is pi related. So my second guess was 1/pi. I can't be bothered to think much.
@e2DAiPIE
2 жыл бұрын
You can also integrate the probability that the candles fall on either side of the knife, which is the integral from zero to one of x*(1-x) dx, but you need to multiply the result by two because the candles could swap places at every knife position.
@theninja4137
8 ай бұрын
Or integrate the probability they are on the same side (x^2 + (x-1)^2 ) right away
@sighthoundman
2 жыл бұрын
As a further check, we know the probability density function of the uniform distribution. So we can label the candles x and y, and the cut z, and just calculate the probabilities x < z < y and y < z < x and add them up. The actual calculation is left as an exercise for the student. (But it better be 1/3.)
@adamhansraj2314
2 жыл бұрын
As a homage to the two Ronnies, please make a follow up episode about what happens when four candles are used 🕯🕯🕯🕯🍴
@Azerinth
2 жыл бұрын
Here's my conceptualization of the question that's being asked: What are the odds that a
@mixer0014
2 жыл бұрын
I gave it a try and got 1/3. Time to watch the video and see the correct answer! Edit: Yay, I got it! I used an integral but the geometric solution is my favourite. It is crazy how many approaches exist for such simple problem.
@jamashe
2 жыл бұрын
My initial thought: calculate the average distance between the two candles, call it d. Then then probability that the knife hits between the two candles is d/D, where D is the length of the cake. Checked it and it gives 1/3.
@leuco2048
2 жыл бұрын
I tried to do It but isn't the average distance 0.25 giving the cake lenght Is 1? Like: On average a candle will end up at 0.5 cuz the average of 0 and 1 Is 0.5 The second candle also has a range 0 to 1, and because the 1st candle on average will end up at 0.5 the maximum distance Is 1-0.5= 0.5 Now on knowing the distance can be anywhere from 0 to 0.5 web know the average distance Is 0.25... I certaintly did something wrong...
@kevinkinal9557
2 жыл бұрын
I ckd it and got 37.5% which is supported by his "slightly higher than 1/3" brute force method (37.5% is 3/8 which is is slightly higher than 1/3 aka 3/9) C1 can, equally likely fall anywhere from the end to the middle. If C1 falls at the end the avg distance between the candles is 1/2 the total distance. (Cuz C2 on avg falls in the middle). So 50-50 chance cut is in the middle if C1 is falls in the middle, C2 will avg 1/4 the total distance from C1. (Cuz, again C2 on avg falls between C1 and the end). So 25% chance cut is in hte middle So the avg distance between the candles is (1/2 + 1/4)/2 = 3/8 the total distance. Hence 3/8 of the time the cut will divide the candles
@pluspiping
2 жыл бұрын
That cake looks nice and all, but that is one delicious-looking graph. That's my favorite here.
@mgrootsch
2 жыл бұрын
I was praying you wouldn't superimpose the word "cut" with a "k" on the video. Thank god you didn't. I think I speak for all Dutch viewers 🙂
@amoswittenbergsmusings
2 жыл бұрын
+1
@landsgevaer
2 жыл бұрын
Kaars en cut ligt idd nogal gevoelig dankzij Johan Derksen... 😮
@N3bu14Gr4y
2 жыл бұрын
Another way to look at the problem is to say there are n+1 evenly spaced holes (including the edges of the cake) you can put the candles in. Assuming your cake is one unit long, the probability of your knife falling between the candles is proportional to the distance between them. For n+1 pegs, this gives us n*(n+1)/2 configurations, so the probability of falling between the candles is the sum of the distances of each configuration divided by the number of configurations. The sum of said distances turns out to be the sum of the first n triangular numbers divided by n, so the overall equation simplifies to 2/(3n)+1/3. As n approaches infinity, the probability approaches 1/3.
@emilywilson967
2 жыл бұрын
another method: let the cake have a length of 1. let x be the distance from the end of the cake at which the cake is cut. as such, it is also the amount of the cake on one slice. 1-x is the amount of the cake on the other slice. then, the probability that both candles are on different slices, given a cut x, will be the probability that they are not on the same slice. this works out to 1-(x^2+(1-x)^2). to find the total probability, take the integral between 0 and 1.
@tialtnga
2 жыл бұрын
Yep, exactly how I did it.
@jamielondon6436
2 жыл бұрын
But doesn't that also assume that the probability for being on one side of the cut is 50%, which is only true if the cut is right in the middle?
@emilywilson967
2 жыл бұрын
@@jamielondon6436 no, it assumes that the probability of being to the left of the cut is x, as one interpretation. If the cut is 43% of the way through the cake, the probability that the first candle is on the left is 43%, which is x. Conversely, the probability that the first candle is to the right of the cut is 57%, which is 1-x.
@jamielondon6436
2 жыл бұрын
@@emilywilson967 Thanks!
@jamielondon6436
2 жыл бұрын
@@emilywilson967 I think I've worked it out now. :-)
@michaelcherry8952
2 жыл бұрын
Of course, if the cake was ACTUALLY a Battenberg, you could also talk about what colour order the squares in the cut could be, since they alternate. Wouldn't that be fun!
@adamplace1414
2 жыл бұрын
Before Numberphile, I never would have paused the video, worked out a guess, then come up with two less mathematically rigorous but more intuitive (to me, only) versions of the first solutions shown. I don't know the formal math as well as I ought, but with all the cool problem solving you see on this channel (and Grant's as well), it's made a difference. I really was shocked at how close my methods were to the proper methods in the video. Keep up the great work.
@Tentin.Quarantino
2 жыл бұрын
That black and blue Mandelbrot set used to be my desktop wallpaper too. It really is a beautiful picture.
@effanineffables
2 жыл бұрын
First instinct was 1/3, just ordering Candle1 Candle2 and Cut as three things in a row, youve got 2 of 6 permutations with the cut in the middle.
@diehagelgans4395
Жыл бұрын
My initial impulse was to draw a tree diagram, starting with three sided dice and the probability to get the third number in between the first two. Then I moved forward to a four sided dice, then a five sided dice, and then I was thinking about doing complete induction to prove that for any given sided dice the chances will be 1/3. I love it how many different ways are found in the video and the commentary to solve the problem
@Axacqk
2 жыл бұрын
My guess before I watch the whole thing, let's see if I'm right: the probability is the volume of the set of points in the unit cube that satisfy x < y < z ∨ z < y < x. This set consists of two disjoint sets of the same volume. Each of those is a tetrahedron, a pyramid with with half-triangle of the unit square as the base and unit as the height, so its volume is 1/3 * 1/2 * 1 = 1/6, and the answer should be twice that i.e. 1/3.
@DrBrangar
2 жыл бұрын
My initial thoughts: find the average interval between the candles, then that size (normalize the whole cake to 1 for simplicity) is the probability of a uniform thing falling in that range.
@farrel_ra
2 жыл бұрын
Exactly, me too! Which ends up on nothing since we need to know the distribution 1st. Going to deep on statistic ends up not that good 😅
@Nomen_Latinum
2 жыл бұрын
@@farrel_ra Ben specified that the distribution is uniform.
@farrel_ra
2 жыл бұрын
@@Nomen_Latinum my bad, I mean we cant pull the answer straight by just knowing the distribution. Thats where mathematician and statistician is different; the way they approach problems.
@Nomen_Latinum
2 жыл бұрын
@@farrel_ra I'm not exactly sure what you mean. The distribution tells us all we need to know about the problem. In fact, as long as we assume the distribution is continuous and it is the same for both candles and the cut, it doesn't matter what the distribution is-the answer will still be 1/3.
@farrel_ra
2 жыл бұрын
@@Nomen_Latinum that is my point, if we were too accustomized with something that is more advanced, then we prolly would forgot that it isn't needed to be that advance to solve the problem.
@ceticobr
2 жыл бұрын
I am simple man. I see a thumbnail with Ben Sparks in it, I click it and watch the video.
@harryharperable
2 жыл бұрын
The combinatorial solution is probably the most elegant… but let me share another! First , I want to note that if the cake has length 1, the chance that the knife lands between the candles is exactly the same as the average distance between the two candles. What is this distance? Call it ‘x’ for now and consider the following recursive argument. The two candles could be distributed either one in each half of the cake, or both in the same half, each with probability 1/2. In the first case, one candle will be on average 1/4 of the way along the cake, the other on average 3/4 of the way making for an average distance of 1/2. In the second case, we end up with the same problem but on a cake half the size , ie what’s the average distance between two candles on a cake of size 1/2? Which would be our ‘x’ but divided by 2. So we must then have that x = 50%*1/2 + 50% * x/2, which can be rearranged to find x=1/3
@guccilouie4791
2 жыл бұрын
You forgot to carry the 50%
@sharperhenz90
2 жыл бұрын
Love all the stuff in the background Ben!
@sparkytheteacher
2 жыл бұрын
That's all Brady's gear. :)
@leonardschoyen
2 жыл бұрын
There's of course infinite solutions to this problem, but the one that came most naturally to me was to solve the integral of 2 * x * (1-x) dx from 0 to 1 - the chance of a candle on each side given x, the position of the cut. This value is of course 1/3. Edit: I originally wrote (x-1), but this should be (1-x).
@iabervon
2 жыл бұрын
That's what I did, too. I also noticed that it was definitely going to be less than 1/2, because having the cut in the best possible place (the middle) gives 1/2 for the question, and it's less likely down to 0 as the cut is closer to one end than the other.
@MCRuCr
2 жыл бұрын
How did you come up with that term 2x * (x-1). Doesn`t seem natural to me
@leonardschoyen
2 жыл бұрын
@@MCRuCr After the position of the cut is determined -- x, there are some cases that might happen. Candle 1 can be lower or higher than the cut, and candle 2 can be lower or higher than the cut. The cut is somewhere from 0 to 1, a range of size 1, so the probability of candle 1 being lower than the cut is the size of the area lower than the cut divided by the whole size of the cake: x / 1 = x. The probability that candle 1 is higher than the cut is (1 - x). The probabilities are the same for candle 2. We want either 1 lower and 2 higher, or 1 higher and 2 lower. Therefore x * (1-x) + (1-x) * x = 2 * x * (1-x).
@rickseiden1
2 жыл бұрын
If you write a simulation you have to generate three random numbers and choose what order to assign them. You can assign them candle 1, candle 2, and knife or candle 2, knife, candle 1, or whatever. As we saw in the video, there are 6 ways to assign these random numbers (6:40). If you have three random numbers, one will always be in the middle (ignoring when two or more are the same), and it will be in the middle in two ways--c1=smallest, knife=middle, c2=largest or c1=largest, knife=middle, c2=smallest--that means that two out of the six ways will have the knife in the middle, giving one third.
@571lama
2 жыл бұрын
Number 1 on numberphile
@fxzfz
2 жыл бұрын
My first intuition was Monte Carlo. I also considered Integration. But the ordering method mentioned in the video is just the most delicate and smartest method. Thank you.
@qaz120120
2 жыл бұрын
First guess: 2 out of 6. Explanation: 1 cut and 2 candles will end up in a row with a random distribution. Short answer, there is 1/3 of a chance that the cut ends up in the middle.
@krissp8712
2 жыл бұрын
Thanks Kim Jong Un, but I think South Korea wants their chickens back ;)
@nachteuler
2 жыл бұрын
The crucial part of the ordering approach is that because each items position comes from the same distribution independently any permutation is equally likely (one reason is the computation of P(a
@Verlisify
2 жыл бұрын
These are the kinds of math problems I love seeing from numberphile
@hypenheimer
2 жыл бұрын
Bot
@gordonwiley2006
2 жыл бұрын
I was in fact worried if the two specific candles mattered, I am no longer worried. Thanks.
@mister-8658
2 жыл бұрын
Intuitively a minute and 33 seconds and I’m going to say 1/3 chance.
@erbiumcanne3095
2 жыл бұрын
Best maths teacher in numberphile
@kashnigahbaruda
2 жыл бұрын
Place first candle then cut the cake. The cake can now be represented by three regions: - from edge to candle, - from candle to cut, -from cut to the other edge. By symmetry there is no reason for any of those regions to be bigger than to other. As only one of those equal regions result in success we conclude that the probability is 1/3. By symmetry the different ordering of placing candles and cuts yields the same answer.
@TheEulerID
2 жыл бұрын
Before I watch this all through, I just took the cake to be of length 1 and the cut at distance x from one end. Then the probability of any single candle being in the first section is simply x, which means that the probability of it note being in that section is 1-x of course. So the possibility of both being in the first section is p(2)= x^2, and of none being p(0)=(1-x)^2. That must mean the probability of just 1 is 1-p(0)-p(2)=1-1+2x-x^2-x^2=2x-2x^2. Now integrate 2x-2x^2 between the limits of 0 & 1 and you get [x^2-x^3/3+c] between the limits of 0 and 1, which works out at 1-2/3+c-c = 1/3. So I make the probability of each piece having exactly one candle 1/3. I'm sure there's a much simpler and elegant way of doing it, but my approach wasn't too difficult. That's assuming I have it right of course... my particular trick for sanity checking such problems is to cheat and use Excel to model it in actual numbers, which is not something mathematicians might approve of. *** now I've watched the video, it seems I have used a completely different technique, albeit it feels like a sledgehammer to break a nut.
@TheAgamemnon911
2 жыл бұрын
I followed a similar approach, although concluding from a geometrical argument. In my case putting cut position on the x-axis and then figuring out a "success-function of putting the candles on seperate pieces" f(x) = x*(1-x) that serves as the upper bound of an area together with the axis, integrating that area and scale it to the total possibility space. Turns out to be the same integral that you got algebraically exept for a scale factor, due to the candles being interchangeable, which is where the 2 comes from. TLDR: Got the same result with the same calculations, just performed in a different order.
@chitlitlah
2 жыл бұрын
That's exactly how I did it. I'm happy I still have some basic calculus knowledge left after several years out of school.
@ImDemonAlchemist
Жыл бұрын
12:37 I love that Ben also immediately thought of Doc Brown.
@j7m7f
2 жыл бұрын
33% - you've got 3 points on one line. Non of the points is unique, they are all the same, so there is the same probability that any of them is in the middle between two others. Each piece of cake has one candle only when the "cutting" point is in the middle, so 1 case out of 3.
@furretwalky
2 жыл бұрын
*Lover's Theme faintly plays in the background*
@dunemeister5718
2 жыл бұрын
“I’ve deliberately got a linear cake” another addition to “quotes only a mathematician would make”
@AliBABA-ru9vb
2 жыл бұрын
2 girls one cup*
@ddBenny
3 ай бұрын
it's crazy... I immediately went to calculate the integral (as many others did as well) and was just blown away by the simplicity of the ordering approach...
@sklyingjoker
2 жыл бұрын
Klein bottle, rubik's cube, Game Boy, and a lightsaber, now that's a nice shelf.
@ralphmay3284
2 жыл бұрын
I am in love with this man´s bookshelf
@cloysterd
2 жыл бұрын
I'm over here doing an integral and Ben is just like "there are only 3 possibilities and they're equally likely".
@bengoodwin2141
2 жыл бұрын
Here's how I would model the situation in a program: Pick random numbers between 0 and 1 for variables A,B,C If A>B>C OR A
@calvinwade6574
2 жыл бұрын
I think this is the first time my intuition matched the solution on a numberphile video
@john_hunter_
2 жыл бұрын
I was thinking about Bertrand's Paradox when I was watching this.
@jabbertwardy
2 жыл бұрын
Finally a topic I can grasp 😅 I am slightly disappointed there wasn't a reference to the Two Ronnies' Four Candles.
@arisweedler4703
2 жыл бұрын
I love Ben Sparks with all my heart
@MikeyDavis
2 жыл бұрын
Excellent video. Thanks Math Damon.
@penteractgaming
2 жыл бұрын
1 candle P(C
@myownsite
2 жыл бұрын
I paused the video to think and came up with 1/3, now I'll tackle this day with newly found confidence. :D
@martijn3151
2 жыл бұрын
“Cut with a K is now going to be in my head forever” is an interesting sentence if you’re Dutch
@mytube001
2 жыл бұрын
My intuition was 1/3, but I couldn't immediately come up with an explanation or an argument for it. Happy to find I was correct.
@leumas75
2 жыл бұрын
I just so proud (as an American) that Australian-British Brady Haran, all around brilliant guy, maker of awesome videos, and deep diver into the best objects know to British mankind, has had the time and energy to have learned that in American baseball a strike is represented by a K.
@Richardincancale
2 жыл бұрын
As a lazy / bad mathematician I would have jumped straight to a Monte Carlo model - I’m glad you got there in the end! And the key advantage is that when the going gets tough (multi-dimensional cakes?) the MC method is definitely easier :-)
@vigilantcosmicpenguin8721
2 жыл бұрын
I would do the same thing as a computer scientist... I suppose the difference between "computer scientist" and "lazy/bad mathematician" isn't very big.
@lo1bo2
2 жыл бұрын
2:15 "Can I ask a question?" When people say that to me, I reply "You just did!"
@killerbee.13
2 жыл бұрын
My very first guess was actually 1/3, but I second-guessed myself to 1/2. Clearly, I should've stuck with my first idea. Anyway my solution was pretty simple. Instead of either treating the candles as indistinguishable (which I think makes the math more confusing), or dealing with them independently (which gives you unnecessary possibilities to check), I just declared that _a_ was the leftmost of two independently chosen random cuts, and _b_ was the rightmost one (if you want to get pedantic, call the original two independent points a´ and b´ and define a=min(a´, b´), b=max(a´, b´)). Since I assign the labels after choosing the points, this doesn't affect the distribution, as I still choose two independent random points. Then I applied Bayes' theorem to turn P(a < c < b) into P(a < c|c < b) * P(c < b). P(c < b) is clearly 1/2, and I started considering how to solve the conditional, and started doing case analysis, but while working that out I realized that I hadn't fully considered my initial precondition of a < b, which had the consequence that their average positions were no longer in the center. That gave me a much simpler method, going straight from the problem statement to the solution. Intuition told me that randomly selected ordered values should be evenly spaced on average, so avg(a) = 1/3 and avg(b) = 2/3. I didn't immediately know how to actually prove this, but a quick numerical simulation confirmed that they do in fact tend toward those values for large sample sizes. Then, the probability that the cut position c, chosen independently of a and b, was between a and b, is P(avg(a) < c < avg(b)) = P(1/3 < c < 2/3), which is trivial to solve: just subtract the lower bound from the higher one to find the size of the middle range. (Note that it's important that c doesn't get included in the 'evenly spaced' consideration from before, changing the averages to {1/4, 2/4, 3/4}, because then you have to do the full case analysis and you're effectively just doing the proof from ordering in the video with extra steps.) I'm ignoring the cases where any of the points are equal because those have probability 0 (the probability of picking a particular element out of an uncountably infinite set is 0). They were also ignoring this in the video too, when they decided not to consider the case of 'cutting a candle in half'. I could address it, and it probably wouldn't even complicate anything much, but by definition it doesn't affect the result so I just excluded those cases and used < everywhere.
@DavidBeddard
2 жыл бұрын
Ben, if it helps you not be surprised, the number of decimal places of the probability that you get with a Monte Carlo method goes like the order of magnitude of the number of trials. I know how you feel though, I always found it weird until that penny dropped for me. Each sucessive trial's impact on the probability figure goes like the inverse of the number of trials.
@YOM2_UB
Жыл бұрын
Having just finished a Combinatorics class, my first thought was simplifying to a discreet case. Instead of the candles and cut being any real number along the cake, split the cake into n regions and place them each in one region at random. If the cut is in the same region as one or both candles, count it in favor of the candles being on different slices. The probability we're looking for would then be the limit as n gets larger. The probability of the candles being on different slices is the number of outcomes where that's true divided by the total number of outcomes. Assuming the two candles are indistinguishable, they can either be in the same region (n possible orientations) or different regions (n choose 2 orientations), so there are n + n(n-1)/2 = n(n+1)/2 ways to place the candles. The cut can then be made in any of the n regions, so there are n * n(n+1)/2 = n^2(n+1)/2 possible outcomes. There are n ways to place the two candles on the same region and 1 way to successfully cut between the candles afterwards, there are n-1 ways to place the candles in adjacent regions and 2 regions to successfully cut, etc. In general, there are n-i+1 ways to place the candles i-1 regions apart and i ways to successfully cut the cake afterwards, for any i between 1 and n. The number of successful outcomes is then the sum from i=1 to n of i(n-i+1) which according to Wolfram Alpha has a closed form of n(n+1)(n+2)/6. The probability of cutting between the candles with n regions is then (n(n+1)(n+2)/6)/(n^2(n+1)/2) = 2(n+2)/(6n) = 1/3 * (n+2)/n The probability of the continuous case is lim as n -> infinity of (1/3 * (n+2)/n) = 1/3 * lim as n -> infinity of (n+2)/n = infinity/infinity, apply L'Hospital's rule: 1/3 * lim as n -> infinity of (d/dn(n+2))/(d/dn(n)) = 1/3 * lim as n -> infinity of 1/1 = 1/3
@aaronl19
2 жыл бұрын
They knew what they were doing with the title
@antonioragagnin9743
2 жыл бұрын
I went for the math solution: if I have a cake of size 1 and two candles in positions c1
@samcavallaro
2 жыл бұрын
My intuition was 1/3 and was happy to learn I was right. My reasoning (not having a strong maths background) was that placing two candles created three regions and only one of the three regions resulted in candles on both sides. I could see that sometimes the region where a cut would be between the candles would sometimes be larger than the two regions on each side, but I figured that that would be balanced by the times when it was smaller. From there I made the jump that the differences in size effectively“cancel each other out” and you’re left with three regions that are effectively equal in size. If my reasoning was correct then the odds would be 1 in 3 that I hit between the candles.
@blepblop7342
Жыл бұрын
i had the same reasoning :)
@gabor6259
2 жыл бұрын
This is cutting edge science. The video is also well-cut. I'll stop with the puns, I don't want you to cut your arteries out of cringe.
@TheReligiousAtheists
2 жыл бұрын
My first idea was that (assuming the cake to be of length 1) the required probability is the same as the expected value of the distance between the two candles. To find this, we first imagine placing the first candle at some position x and then if the second candle is on the left of x (with probability x), it is expected to be at a distance of x/2 from the first candle and if it is to the right of x (with probability 1-x), it is expected to be at a distance of (1-x)/2 from the first candle. Hence, the answer is the integral from 0 to 1 of x • (x/2) + (1-x) • (1-x)/2, and by King's property this is the integral of x² from 0 to 1, i.e. ⅓. I felt that the method with arrangement was really elegant... The fact that it requires no calculus is amazing
@MyrddinE
2 жыл бұрын
I'd never heard of King's Property before, so the only way I got this answer was integrals. Can you clarify how the king's property helps get the answer of 1/3 without doing the integral manually? For others who also haven't heard of this, the King's Property states this: the integral (from a to b) of f(x) = the integral (from a to b) of f(a+b-x) Substituting our problem: integral (from 0 to 1) of x^2+x-1/2 = integral (from 0 to 1) of 1-(x^2+x-1/2) I just don't see how that simplifies to give us the answer of 1/3.
@TheReligiousAtheists
2 жыл бұрын
@@MyrddinE Split the integral into the sum of integral from 0 to 1 of x²/2 and that of (1-x)²/2, and then use King's Property on the (1-x)²/2 term to convert it into the integral from 0 to 1 of x²/2. Basically, all that does is mirrors the area which we're finding using integration along the vertical.
@LouisOnAir
2 жыл бұрын
If you start by taking a fixed cut at a distance h (between 0 & 1), the probability of the candles being either side is 2h(1-h) (one in the chunk of length h, one in the chunk of length 1-h, multiply by 2 since the candles can be swapped), and you can integrate this over all values of h (with a pdf of f(h)=1 bc it's uniform) to get 1/3. Obviously this is less graceful because it requires calculus, but it is very useful if you want to expand the problem to non-uniform probability distributions.
@Underscore_1234
3 ай бұрын
I really liked this problem because I started trying directly integrating distributions and then I checked the solution (which matched) but the ordering is so simpler. Also, he said that he didn t make a strong argument about equiprobability but i d say distinguishing both candles and justify equiprobability because c1, c2 and K follow the same distribution thus have a symnetrical role is strong enough
@guessundheit6494
2 жыл бұрын
2:25 - It's not just that the cut can't happen where the candle is. Random placement ought to say if the candles can be together or have some minimum space between.
@taylankammer
2 жыл бұрын
So proud that my initial guess was ~30% haha. My reasoning was: - For there to be a 50% or higher chance, the candles have to be at least half a cake apart. If they're less than half a cake apart, there's a more than 50% chance they'll end up on the same side. - There are more configurations where the candles are less than half a cake apart, because if they're close together you can put them anywhere on the cake, whereas putting them half a cake apart constrains you more on where you could put each candle. So I was fairly sure it was going to be less than 50%.
@chunkynorris100
2 жыл бұрын
I first thought it was 1/6 but then realised it's 1/3 Since I'm terrible at probability, I immediately made it as comfortable as possible. The line is assumed to be length 1, and the cut splits it into lengths L and 1-L. The probability one candle is on the L side is L, and that it is on the 1-L side is 1-L. Thus, the probability one is on either side is L(1-L). I then slapped L(1-L) into a Riemann sum-esque series and got the limit as N approaches infinity of (N(N+1)/2 - (2N+1)(N+1)/6) * 1/N^2, which is 1/6, then of course I realised this solves for the assumption that the first candle is on a certain side, so doubling 1/6 to be 1/3 should give indistinguishability between candles.
@OrangeC7
2 жыл бұрын
I would ask why mathematicians love cake so much, but really who am I kidding, cake is the best
@stephenjames9962
Жыл бұрын
I simulated it on Excel - twenty thousand cakes - and got 0.33 with a lot of variation after the second decimal place. It gets to a third but surprisingly slowly, takes a lot of cakes.
@GroovingPict
2 жыл бұрын
Im pleased that my immediate intuitive answer of 1/3 turned out to be correct
@taidghhaggerty6109
2 жыл бұрын
shoutouts to this video making me dust off my knowledge of integrals to solve it. And then making me feel like an idiot for forgetting I could just look at it from an ordering perspective.
@RomanCenturion0
2 жыл бұрын
Bro i saw this guy do a talk on numbers he is actually rlly chill
@Nathouuuutheone
2 жыл бұрын
I got 1/3 by turning the continuous cake into a line of discreet points, started with three possible positions, got a third. Kept going with four and got a third again. Then I checked the comments and saw one that reframes the questions as picking three random points, randomly declaring one as a cut and the other two as candles, and looking at the chances of the cut being the centermost of the three points. It doesn't matter how far apart they can be, how many discrete positions the points can have, there's always one chance out of three that the cut lands between the two candles.
@billcook4768
2 жыл бұрын
Thinking about this for a bit, this is a round about way of proving that if you pick two “random” numbers between 0 and 1, the average value of the smaller number is 1/3, and consequently the average value of the larger number is 2/3.
@countherrenshire
2 жыл бұрын
This might put me too far in the applied mathematics camp, but my solution was to take a double integral. The probability of cutting the cake in between two candles at points x and y, since the distance is 1, is given as abs(y-x). Therefore, you can take an integral from 0 to 1 of (the integral from 0 to x of (y-x) dy) dx. Which evaluates to 1/6, however, the function z=abs(y-x) is symmetric across y=x, so you can simply multiply the 1/6 by 2 to get 1/3. Essentially you are just looking at two equal triangles which divide the square region of {(x,y)|0
@samuelhorsch9981
2 жыл бұрын
I have an alternative solution: Imagine you divide the cake in the middle into two equal sides (this is not the cut). Then similar to the ordering argument there are 8 possible outcomes: C1, C2 and K on the left side, C1 and C2 on the left side and K on the right side, C1 and K on the left side and C2 on the right side and K and C2 on the left side and C1 on the right side. The other four possibilities can be obtained by swapping left and right. Now the cases where the cut K is on one side and the candles are on the other side will definitely not have the cut in between the two candles, this leaves six possibilities. If there is the cut and one candle on one side there is a 50% chance that the cut will be closer to the centre and therefore cutting in between the two candles. If the two candles and the cut are on the same side we have the same problem as the original question asked us. Each of the 8 possibilities has probability of 1/8 which gives 2 * 2* 1/8 * 1/2 + 2 * 1/8 * x = x where x is the probability of the original problem. We can solve this for x which gives 1/3. However we can also use this relation 1/4 + 1/4 * x = x to get an infinite series namely summing over (1/4)^n for all integers bigger than zero. This is tells us that this sum will converge to 1/3. If we compare this series to the series which terms are (1/2)^n we see that it picks out every second term which means the remaining terms sum to 1-1/3=2/3. I think that is quite cool. Next one could divide the cake into 3 (or n) equal sides and do the same ordering argument which might give rise to solutions to other converging series’s.
@presto709
2 жыл бұрын
I don't know if this is sound but my reasoning was: If the candles are far apart the chance of the cut being between them goes toward one. If the candles are very close it goes toward zero. To put the candles halfway between the farthest they can be and the closest they can be would be to put the candles at 1/3 across the cake and 2/3 across the cake dividing the cake into thirds. At that placement, the cut would be between the candles 1/3 of the time.
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