10 Amazing Math Facts You Never Learned In School 

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To add on to the birthday paradox, once u have 75 people, the chance that 2 share a birthday is already almost a gurantee already(≈99.97%), which is only about 1/5 of the 365 possible days

Optimal strategy for Towers of Hanoi with n disks (if present), from source peg A to target peg C using auxiliary peg B: 1. Solve optimally for the top n-1 disks (if present) from A to B (2^(n-1)-1 moves) 2. Move bottom disk from A to C (1 move) 3. Solve optimally for the top n-1 disks (if present) from B to C (2^(n-1)-1 moves) Total: 2^n -1 moves

I think vsauce + 3b1b + Numberphile is enough to cover all of these topics on RU-vid, love seeing these things talked about more :)

"10 Amazin MATHS Facts!!" Me: Why am I watching this? Me: Why am I still watching this? Still Me: Why did I watch that?

I'm a twin ... when I was young, the probability for me to have someone in the same room with same birthday was close enough to 100% that it didn't matter 🤣

i saw the banach-tarski paradox video by vsauce and that broke my brain beyond repair

"MATH FACTS YOU NEVER LEARNED IN SCHOOL" Number 1: CALCULUS It's like being that kid in primary school that shouts x^2=4 is also -2 or in high school asking "What about the irrational solutions" ... I mean they're interesting facts, the clickbait just annoys me

The Banach-Tarski Paradox animation made me laugh so much

0:00 It's also a repunit.

121^2=14641 which is also the 5th row of pascal's triangle. in fact: 11^0 = 1 11^1 = 11 11^2 = 121 11^3 = 1331 11^4 = 14641 11^5 = 161051 seems to break the rule but: 11^5 = 10^5 * 1 + 10^4 * 5 + 10^3 * 10 + 10^2 * 10 + 10^1 * 5 + 10^0 * 1 so it has the fifth row of pascal's triangle but a little hidden due to the limits of a base 10 number system (in base with more digits the pattern would continue) the reason the powers of 11 encode pascal's triangle is because pascal's triangle encodes the binomial coefficients, and: 11^n = (10 + 1)^n

Why is always the Mandelbrot fractal more popular than the Kochs snowflake fractal? :( I think it looks way more dope!

Mandelbrot set is the most beautiful thing of mathematics ever found.

5:19 it's not finite, it's in infinnite pieces.

Great content! Keep it up.

Nice! The only ones I didn't know were the first one and the last two.

How to Tell, that I'm a math nerd: I acually knew every point on that list XD . Good Video tho!

5:12 Speaking of mispronunciation, you mispronounced "mispronunciation", which has no o before the u :)

I would suspect that if 11^2 = 121 and 121^2=14641 , then 14641^2 would be the palindrome 1248421 or something. But its not, its 154281241 which feels totally random and is kinds weird

If you want to read about the cultural and social (and of course the math/science) implications of zero, there’s a terrific book called “Zero: The Biography of a Dangerous Idea” by Charles Seife. I highly recommend it. It has some technical chapters, but most of the book is about how zero impacts things like religion and culture. Very cool! I covered the Four-Colour Theorem with my students last year! Fascinating and easy to understand, and you can see why it led to so much development in graph theory! Thanks for reminding me of the Birthday Paradox … I’m starting a probability unit with my students in a few weeks, and that’s a great way to start it! Nice meta-joke with mispronouncing “mispronunciation”. 😂 The Mandelbrot Set makes me instantly think of Holly Krieger! Anyway, good video!

Bro the euclidean triangle gon' humbled

Learning how to solve problems like 1^x=2 or x= π! opens a whole new world of math.

I'm doing a speech about fractals in my speech class

Wow, a bosonic tower of Hanoi 🤪

I actually learned about all of those in school. School's cool.

5:14 Time for some misproNOUNciation! Lol, the irony!

I work in a bar, just 6 of us yet 3 of us have the same birthday and another guy we work with has a brother who shares our birthday. I wouldn’t know how to work that probability out even missing out the other guys brother 😱

5:00 What’s the probability of that though?

i love these facts

"Time for some mispronounciation"! Yup, so let's start with mispronunciation

The birthday one is funny to me because in my class of 26 people, there are me and 2 other people whose birthdays are the 21st, 22nd and 23rd of April

You should have added Trevor's (from Grand Theft Auto V) "blablablablababla" audio clip at 5:50

How does he explain the 6 degrees of separation?

1:45 "Also comes in handy as an eye chart," -- Johnny Wayne and Frank Shuster, "Rinse the Blood off my Toga".

5:00 how do u know that someone in room was not born on 29th feb

That animation made my day

I think I watch too much math video, I already heard of all of them.

for the four colors theorem ( 3:07 ) are regions allowed to have exclaves? [Ex: Kaliningrad-Russia] i assume no since there are situations where it would not work if that were allowed

It is true. I learned all of these facts only by learning Maths on RU-vid

I like your exposee. Next time could you just help me a bit, by dividing for subject, for example by counting out or change color? It would help me know what I am listening too. Thank you for the offer from your sponsor

Great episode, but in the end of the birthday problem you said "the odds get higher" when I assume you meant "the chance gets higher". When the chance gets higher the odds get lower, right?

Nice video! Hope to see more of theese :D

3:37 whydid the animation fall through itself

Why did the chicken cross the Mobius strip? To get to the same side. 🤣

1 is a palindrome, and when you square it, the result is ALSO a palindrome!!!

I have had someone in my class share my same birthday three times in my life

Segments are not triangular and you can't say triangle can be more than 180 degrees

What does the 'B' stand for in Benoit B Mandlebrot? Benoit B Mandlebrot

What the hell was that? 3:37

5:46

"The shortest distance between 2 points on a sphere is along a great circle connecting those points." True if they can be connected by a great circle, but many can't - they can only be connected by small circles: for example, two points at the same latitude on Earth cannot be connected by a great circle - their shortest-distance connection is along their common latitudinal arc (a small circle).

3:33 This problem you say is "Tower of Hanoi" was said to be a Mathematical problem from Varanasi (Benares; have you ever heard of this city?). George Gamow explained this in his book "One Two Three . . . Infinity". You better, have a look at this book. Prior to Mathematics, it would be better for you to improve your knowledge of History - if you intend raking up historical facts.

Cool video. Still can't figure out what is going on with the thumbnail!

There is an unofficial Roman numeral for zero which is N

Assuming birthdays are uniformly distributed, and ignoring leap years, you need 253 people in a room before it's odds-on that one of them shares _your_ birthday. This is just the smallest natural number _n_ for which (364/365)^n is less than one half.

5:46 literally ROFL :'D

5:13 - "Time for some misproNOUNciation..." You mean, "misproNUNciation"! 😅

0:00

I was 3 people away, my guess was 20

i don't understand how did we find 23 for the birthday problem

Isn't a Möbius strip just a torus that's been squashed a weird way?

Wow. 🎉

no chapters?!

CMIIW, for minute 2:10, wasn't Roman Numeral were invented before the number 0 so it doesn't have 0

Fun information , but the transitions are very abrupt

So IIIIIV wouldn't be zero? WTF

Talking about the Mobius strip and then not mention its actual application in industry as a way to distribute wear to both sides of belts, thus increasing their lifetime. Missed opportunity there.

I think fun facts are not nesesary in term of learning, just using them as examples so school ignored.

oof, Manim is not happy today

WYSI video length

Adam Neely but maths

Nice 👍

Any power of 11 is a palindrome

Its not true what u say Spherical geometry IS NOT like Earth Earth is sphere in some space, but spherical geometry is the space curved like a sphere

Who one knows about iit jee

Ok

10th

I am sure it wasn't 10

😠 For a channel promoting mathematics, your use of ‘ton’ is somewhat peculiar. A ‘ton’ of research? Clarity in the use of language is essential in conveying meaning to an audience. Foggy language is one major reason why students fail to understand what is being taught.

Click-bait title! I have taught Mathematics for 20 years, after 12 year in industry. [TLDR: some items many not be appropriate at High School, and more likely you forgot the lesson for the 'surprise', they are used to emphasis a TEACHING POINT/SKILL not as an END TO THEMSELVES] [Edit]: This video indicates special cases that have WOW, but the underlying Mathematics is frequently taught, and the extremely level of it is the result of a long JOURNEY; we have to choose which to show. A better title "The Special case you forgot from Mathematic Lessons". Encourage students for the Extra-curricular programmes - not necessarily Olympiads. As you may see, these are the results of more common concepts. [Edit] PLEASE Support your Mathematics Teachers, we have a lot of SKILLS and TECHNIQUES to teach, many of these examples are either the result of a special case or require a LOT of work to get to. I hope your Maths (guessing US) teachers contact you to highlight when some of these were shown in class. Many teachers do these little side projects to introduce these ideas; depending upon the classes I've done intersecting * produce patterns from numbers --- used within proofs, particularly identifying the implications of factorising * great circles creating angles, expanding and changing - Mercator Projection and why maps work * number systems... BINARY, HEXADECIMAL, NEGATIVE, COMPLEX NUMBERS, numbers * mobius ... done this regularly, try predict the outcome; try 1/3 of the way from the right edge, ant walks along the strip (PHYSICS - an analogue for 1/2 integer spin) * four colour theorem ... use to extend to 3D for colouring touching surfaces [I don't remember but will have to look back at my notes] (use to extend to large numbers, Grahams number is a map colouring upper limit that we do not know the top end but we know it end in a 7... linking back to patterns in the sequences of numbers), interestingly also the difference between Venn and Euler diagrams in Set theory; also the concept of PROOF - as mentioned - EXHAUSTION (yep feeling this right now) * tower Hanoi ... development of a strategy (varying number of discs - the Myth of the Buddhist monks who are doing 64 rings, and when they finish the world will end, 1 a sec --> more than 4 billion years... * birthday Paradox ... agree probability is anto-intuitive, link to the "Monty Hall" - "Goat problem", developing the analysis of problems by considering scale, i.e. rather than 3 doors. Also, further analysis (Monty did NOT ALWAYS make this offer!)... Birthday is linked to dice matching et games, this becomes the conclusion - PLENARY * banartaski Paradox --- got me here, but have done the odd lesson upon hole counting on Topology, including the thought experiment of turning a sphere inside out; the coffe mug solution to 3-houses connected to 3-utilities problem --- including my planar solution - CLUE: the houses are not points! * mandelbrot -- used to demonstrate the popular vision of fractals, but we regularly make Serpenski triangle and other patterns of simple rules; including patterns of even numbers in Pascal/Cardano/Yung Hui Triangles --- including the misappropriate names --- Mandletbrot itself requires COMPLEX NUMBERS and ITERATION, i.e. a lot of time! By the way I think it was the 1960'/70's that Bernot Mandlebrot (died since 2000) was able to use a computer to find the iterative limits of z²-1 for all point in the complex plane - so not intrigued "FOREVER". Koch Snowflake and Serpenski Triangles teach more about the ideas of infinitissimals, limits and the difference between convergence and divergence. [All the above are off the top of my head, no further research or notes referrals, most teacher's could probably easily tick off half!] Each one listed I have used as examples or end of term "fun exercises" to link back to content taught earlier in the term -- as much of this would be, YOUR VIDEO IS AN EXAMPLE - here is a fun fact, but to investigate and understand it TAKES TIME and EFFORT. The most likely effect is that you do not recall these ideas "Oh MrB is on another odd lesson that helps how, oh that was fun..." next lesson "Last lesson we did maths!" or "how does this help me pass my exams". Teachers I have seen and observed try to give this spark using these ideas, but the more often the students seem to take this. THE BIGGER PROBLEM is the Societal acceptance that you "don't get" Maths, this is passed generation to generation; as a teacher parents saying "It's OK I didn;t get Maths id THE BIGGEST problem in teaching Maths". This video leans into this attitude and I IMPLORE YOU to stop; my question is who and when did you discover these trinkets? How about the fun of how much is the loan I took for education, a car, my house going to cost me; compare it to how much I earn and its value, integrate the depreciation... the REAL WORLD... Nah! Its the future!... Maths teachers have real life skills that need to be communicated, but society dismisses them, thanks to denigrating the efforts of people. **** This goes all such videos, cherry pick a surprising effect go for it - now integrate into a curriculum that has real application - MATHEMATICS is a LIFE LONG set of SKILLS in thinking, processing and decision making; and I AM ANNOYED MY HOW MEDIA REFLECT THEIR OWN ****IGNORANCE**** with such glib attitudes THESE ATTITUDES MUST CHANGE **** This diatribe is not directed to BriTheMathGuy, but there is an Society Attitude that Mathematics is hard, and only the bright can master this THE ATTITUDE MUST CHANGE,. (I would have made a video rebuttal - but I think my account would get blocked by the amount of swearing!!!!)

I read the title as: 10 amazing meth facts

Btw, which comment will have the most likes?

You mispronounced mispronunciation.

:)

Fun fact: Hₗₙ₍₆₎ is an incredibly good approximation of √2