How many ways are there to prove the Pythagorean theorem? - Betty Fei

See I wish more teachers while I was still in school explained the reason why math is so important. The only answer I got when I asked "where would I need this" or "why is this important" was "because its on the test" or "its school mandated" rather than explaing that math is integral to the way the world works and functions. This is way more interesting than I remember it being

Me:Yo pass the _right angled ruler_
Friend:You better not to _prove the Pythagorean Theorem_
Me:

1:50 love the attention to detail. “On a flat surface” cause we now know we can make non-Euclidean geometry which breaks these rules by using things like spheres to make a triangle with 3 right angles
Edit: fixed error pointed out by Hritik

Here's my prove: Ted Ed made a video about it.

I kind of stumbled upon that first one in high school, but without the second diagram.
I knew (a+b)^2 =a^2+2ab+b^2, and wanted to visualize what that meant geometrically by creating a square with a+b on all sides, using triangles of surface ab/2.
4 Triangles of ab/2 made 2ab, so the remainder of the square that wasn't the triangles had to be a^2+b^2.
Unfortunately I never made the leap that this was also c^2 (because I hadn't even considered that side of the triangles), and therefore a proof of Pythagoras, even though it was right in front of me. Just goes to show you sometimes can only find what you are looking for.

are we not going to acknowledge the fact that einstein came up with a proof of the pythagorem theorem at 12????

Anyone else notice that their eyebrows are made out of right triangles?

Step 1: Take a triangular sandwich of your choice that has a right angle.
Step 2: Eat it.

I use a variation of the 4 triangles, set them up like at 2:24, and find the area of the squares. It is a^2+b^2+2ab for the large square, while the contents of that square are c^2+4(ab/2), subtract 2ab from both areas and you get a^2+b^2=c^2

Glad to see someone young was able to prove this theorem

The animations of the mathematicians were funny

Here's my proof:
It works

I wish I was high on potenuse.

Me: 4:56
"Did you enjoy this lession?
If so consider please consider supp-"
**video closed**

It is also valid for other figures scaled to the sides of the triangle. For example, a circle with diameter equal to the hypotenuse will have an area equal to the sum of the areas of circles formed when the other 2 sides are taken as diameters. Also valid when considering semicircles drawn in the same manner, parallelograms and more.

And if my Maths teacher, back in the day, just drew a right angle triangle with 3 squares attached he would have saved both of us a lot of time haha.

What an insightful video! Keep up the amazing work!

The way that Euclid touches young Einstein at 3:05 makes me feel uncomfortable

The way, through the funny animations the pythogoras theorem was explained is completely praise worthy. Simply awesome 👍👏😊

Einstein came up with a proof of the Pythagorean theorem at 12
Asian baby: hold my pacifier....

Hi (Sorry for my bad english)

I think that many cultures figured this out is amazing, and that our universe just had this mathematical phenomenon

4:28 Like anyone got time for that

1:32 this Indian mathematician is one of the cutest thing I've seen on the internet recently 😂♥️

Incrivel como tudo na matemática tem uma base lógica. Ela se torna cad vez mais linda pra mim. Espero q um dia o Brasil seja um país conhecido pela valorização da matemática.

305 proofs. I guess it must be true then... :)

So extremely helpful!! I'm in a graduate level History of Mathematics class, and this video really helped me to understand the Pythagorean Theorem in a different way.

I LITERALLY NEVER KNEW "squared" ACTUALLY MEANT A SQUARE LIKE THAT OMG
*everything makes sense now*

In case anyone is using this to learn more math, 1:48 is not quite right. 2a^2=c^2 would imply a/c=sqrt(2), which would make sqrt(2) rational. The graphics makes it look like two of the a^2 squares would fit inside the bigger c^2 square (that triangle looks like it’s a perfect fourth of the square), but the a^2 squares are always just a tad off ... exactly one unit area off actually. You can see for example 2*2^2=8=3^2-1, or 2*5^2=50=7^2+1.

That background music at 4:56 was awesome. As I had dolby speakers I felt as if it was coming from somewhere else other than my speaker!

Please upload A Riddle

I have never commented on a TED-ED video. But I have watched nearly all of them, and this is my comment if I had one for every video put together:
Wow! Amazing! Keep up the good work! Love the cool art style for this video! I like how you touched on that point! Omg I just learned about that in school! The animations are great! I tried to solve the problem from many differed perspectives, but I didn't know it was that simple! I wish that I could remember all that!...
My main point is that over the really REALLY long time that I have been watching TED-ED. To all the animators, and all the educators and all the writers and all the people that helped contribute to the amazing videos that you guys upload, Thank You! Over the years I have learned a lot from this channel. And maybe one day, I'll be in one of my own TED-ED video!

I just want to impress random strangers on the Internet.

Here’s my proof:
Take the square from 2:29
The length of the large square is (a+b) squared because the length of one side of the large square is the length of a plus the length of b, making a square that has a+b as a side length
The area of c^2 is the area of the large square minus the triangles
The area of a triangle is ab/2 (because one triangle is a rectangle with side lengths a and b which is cut diagonally) and since there are four triangles, the total area of the triangles is 2ab
The total area is (a+b) squared, which is a^2+2ab+b^2 and you subtract the 2ab from the four triangles, you get a^2+b^2= the area of the square of c, or a^2+b^2=c^2

Very happy to see an intelligent Indian who derived this theorem .
Love from India 🇮🇳🇮🇳🇮🇳🇮🇳🇮🇳

Geometry was never really my thing back in high school. I did poorly in proving. Algebra, Statistics, and Calculus are my favourites.

please do a video about thales

Ted- How many ways to prove Pythagoras theorem
Me - By using perpendicular triangle.

TED-ED a day keeps bad grades away.

Ηere's my proof (I'm sure it has been found by others many times before, altough I am not sure by whom exactly). I found it accidentally:
For any right triangle, the trigonometric identity (sinθ)^2 + (cosθ)^2 = 1 holds true for any angle.
Let "a" and "b" be the adjacent sides and "c" the hypotenus. By expanding the definition of the trigonometric numbers in the identity we get:
(a/c)^2 + (b/c)^2 = 1
(a^2/c^2) + (b^2/c^2) = 1
Multiplying by c^2:
a^2 + b^2 = c^2 Q.E.D.
It's definetly not much. But I was super proud when I came across it.

Love these videos

the proof @ 1:30 is often used in art, such as figure drawing in this example, when combining parts of the body so that they stay within the correct proportions.

I saw the water-filled squares proof at the Ontario Science Center in the 1980s and remember thinking to myself, so that's what the square on the hypotenuse means. It was a really meaningful representation.

Here is my proof:
The triangle has 3 edges
Edges has 5 letters
5-3=1431879-1431877=2
Number 1431879 for what?
Of course
That's Einstein's birthday: 14/3/1879
14/3-->3/14
3/14-->3.14
What does the number 3.14 relate to?
Yes
Of course
Anyone who is good at Math will know
That's 3x14=42
42 is *THE ANSWER TO LIFE THE UNIVERSE AND EVERYTHING*

My solution was to make the formation at 2:25 and then subtract the four triangles from the whole figure.
(a+b)^2 - 4(0.5ab)=c^2
(a^2 + 2ab + b^2) - 2ab = c^2
a^2 + b^2 = c^2
Another proof that I made was to use the formula that finds the length between two points on a graph and center the vertex of the triangle at the origin and the sides a and b on the x and y axis
sqrt( (a-0)^2 - (0-b)^2) = c
(a-0)^2 - (0-b)^2 = c^2
a^2 - b^2 = c^2

I love ted end it makes me feel relaxed when learning new things
even though I hate maths

When you have to learn pythagoras and trigonometry in yr 7

thank you ted-ed for continuing to enlighten me on topics i was always curious about, but never really finding out.

And now ,in 2023,there is an ingenious trigonometric proof which does not circularly rely on the Pythagorean identity iself in the first place, conceived by 2 high school students.

Indian mathematician name was boudhayana, who described it in his writings shulbha sutras(easy formulas).

The geometric demonstrations of it are always neat, but my favourite proof is the one that emerges naturally from complex numbers. It then comes right out of the fundamental arithmetic of multidimensional numbers, all on its own.

This was super informative and I'm glad it showed multiple proofs

Even though the Pythagorean Theorem was know before Pythagoras, it was Pythagoras who first gave a rigorous proof, and the concept of a mathematical proof originates from the Greeks. Hence we named it after him. As for the water turntable demonstration towards the end of the video, it is not admissible as a mathematical proof. Lengths are specific rather than general.

Take a triangle of sides a,b,c and angles A B C and b is right angled
Now A+C=90
now sin(A+C)=1
SO NOW
SinAcosC+Cosasinc=1
b2+a2=c2

I have a simple way to prove the Pythagorean theorem, you have 3 squares, the 1st square has an area of 4cm², the 2nd square has an area of 8cm², the final square has an area of 12cm². If you combine the 1st and 2nd squares, you get an octagon with an area of 12cm² (4cm² plus 8cm2) which is equal to the area of the third square (12cm²)

I love these videos...makes me feel smart

Hmm. This makes me wonder. Did all cultures around the world discover the theorem independently?

1:37 that theorem is called "Baudhayana Sulbasutra"

Me in year 7: Pythagoras
Me in year 8: Trigonometry
Me in year 9: Could we use Trigonometry to prove Pythagoras?

Just watched with Geometry block 3 in 2024, super duper enjoyed it. We noticed that they all had right triangle eyebrows! Did you find any other right triangles?

_What's the difference between Euclid, twelve-year-old Einstein and James Garfield? Answer: Nothing! They all enjoy lasagna! Stop!_

Who is here after the two teenagers found another way to prove the Pythagorean theoreom using trigonometry?

We learnt the Pythagoras theorem in 5th grade.
Did you know that there is an alternate, simple and ancient Indian method to compute hypotenuse :
The Tamil kings, centuries before the dawn of the Common Era had built dams, dykes, palaces and great cities during the Sangam era. How did the architects in those times design and build the great turrets in temples and the great dams,canals, highways, etc.
Upon searching it was revealed that finding the hypotenuse of a right-angle triangle can be done independent of the Pythagoras theorem, (which enunciates that sum of the square of both sides of the right angle will be equal to the square of the hypotenuse, of the triangle).
It is a simple task to find the square of a number, but finding the square root of a number is not so easy. There is no simple formula to find the square root of a number.
An ancient Tamil mathematician/poet Pothayanar, who lived 800 years before the Common Era, had given a quatrain of four lines articulating the method of finding the length of the hypotenuse of a right-angle triangle without the need to find the square or the square-root, only using the length of the sides, and simple fractions.
Here is the English translation of the quatrain:
Divide the horizontal into eight,
Delete one portion, and add the remaining,
to half of vertical to result you’ve got.
The answer would be hypotenuse of the triangle.
The Tamil poem by poet Pothayanar is :
ஓடும் நீளம் தனை ஒரேஎட்டுக்
கூறு ஆக்கி கூறிலே ஒன்றைத்
தள்ளி குன்றத்தில் பாதியாய்ச் சேர்த்தால்
வருவது கர்ணம் தானே. - போதையனார்
The advantage of the ancient theorem is that there is no need to use a square / square root function.
But before we jump to conclusions let us see how this ancient and simple formula works :
Let us take the three sides of the right-angle triangle to be A, B, and C, where C be the hypotenuse.
Let us take A and B to be the horizontal and perpendicular
sides respectively.
If we are to divide A into eight parts and takeaway one eight, it would be 7/8A.
The half of the vertical side will be 1/2B.
Thus, the result should be :
C= 7/8A + 1/2B
Let us give some numbers and try :
*Firstly* Say A=8 and B=6
By Pythagoras theorem, C equals √ (8x8+6x6) Which is √ (64+ 36) = √100 =10.
Now, according to the quatrain :
C should be 7/8 A+ ½ B
7/8 of A (8) = 7 and ½ of B (6) =3
Together they add up to give hypotenuse to be 7+3=10

*Second* let us try with taking A=28 and B=21 then
by Pythagoras theorem C= √ (21x21+28x28)
C = √ (441+784)
which is =√1225 = 35
According to quatrain : hypotenuse becomes 7/8A + 1/2 B.
7/8 A=7/8 (28) = 24.5 and 1/2B= 1/2 (21) = 10.5
Thus 24.5 + 10.5= 35.
*Third* let us try with taking A= 12 and B= 5 then
By Pythagoras theorem C= √ (12x12) + (5x5) = (144+ 25) √169 =13.
According to the ancient Tamil quatrain : the hypotenuse becomes 7/8A + 1/2B
7/8(12) = 10.5 1/2 (5) = 2.5
Thus 10.5 +2.5 =13
Pothayanar must have been a great mathematician, who got lost like fruit hidden in the foliage of the tree.
The discoveries of the Greek scientists and mathematicians spread far and wide along with their conquests in the world.
Unfortunately, in ancient India, many great intellectuals, and their knowledge / findings were lost to the world owing to various reasons and events.
Our schools teach the Pythagoras Theorem to our children. They should also teach Pothayanar's theorem as an alternate and easier method, as explained above.

Thanks for this TED-Ed and Betty Fei!

Another proof by rearrangement that ends in an algebraic solution:
Get 4 exact triangle copies and connect them as in the first step of example one in the video where a square of c^2 is in the center. If we look at the outer square that this forms, the side lengths are (a+b) so it’s area is (a+b)^2.
Now we need to find the area of all 4 triangles combined 2 different ways and then set them equal and solve.
1- take the area of a single triangle 1/2 base* height and multiply that by 4. We end up with 2ab.
2-subtract the inner square from the outer square. This gives us (a+b)^2 - c^2.
Set method 1 and 2 equal to each other.
This gives:
2ab = (a+b)^2 - c^2
This simplifies to a^2+b^2=c^2.
QED

Who's here after teens found a trigometry proof for Pythagorean theorem

I wish I saw this earlier when i was getting introduced to Pythagoras theorem and I hated it. This makes things so much intresting

2:24 We don't even need to do the second step at 2:30.
We can simply obtain 2 different equations to calculate the area of the big square. The area of a square is equal to its side squared. The side of the big square is a+b so:
A = (a + b)^2 = a^2 + b^2 + 2ab
But we can also calculate the area as the sum of the areas of all 4 right angle triangles and the square in the middle. The area of a right triangle is a*b/2. Therefore:
A= (4*a*b/2) + c^2 = 2ab + c^2
We can now set these two different formulas for the area equal:
a^2 + b^2 + 2ab = c^2 + 2ab
Subtract 2ab on both sides and we get:
a^2 + b^2 = c^2

wish schools would teach us things like this, it makes learning about math so much more interesting because you can see its real life applications and its actually really fascinating, i think more people would enjoy and excel at math if we were first shows things like this before being taught concepts

I love Ted ed

Need to update the video now that there is a new method using Trig :)

I hope you do more videos about math , this is interesting.

method at 3:41 can also be done by just saying that the area of each triangle is proportional to the square of the hypotenuse. since sum of areas of two smaller triangles is equal to the area of the larger triangle.
then the sum of the squares of the hypotenuses of the two smaller triangles(a² +b²) is equal to the square of the hypotenuse of the larger triangle ( c²)

This video teach me all about Pythagoras theorem. Thanks 😉

The great Indian mathematician Baudhayana who find Pythagoras theorem first of all other mathematician in the world 🌎🌍.

@2:30 omg how she says the letter "r" in rearrange!!!

@1:38 Chinese ancient text mentioned that this relationship was discovered as early as 1000BC. Check on 商高 inside the book called 周髀算經.

I added one method using circles and for your kind information I did it in summer vacation when I was in class 8

The animation makes it look so easy and this theory I never understood in my entire school life

Me: Triangle could never be square.
Triangle: **is square**

I just got so much hype bc of watching this. Felt like my IQ has increased

3:29 bpt

Thanks. Explained in 5 minutes what some teachers struggled to explain on the course of multiple classes.

Nameste! from India and Thanks for Simple and Easy Ancient Way rather than Modern Scientist.

pythagorous : i am first to find out this
indian ancients techers : hold my theorem

BRING THE RIDDLE VIDEO BACK ATLEAST 1 IN A WEEK

but if the angle is not 90 degrees,
c^2 = a^2 + b^2 - 2ab*cos(gamma)
whereas gamma is the corner which should be 90 degrees, but is not.
cos(90) = 0, so a lot of people forget about the second part of the theorum.

Best Pythagorean video

Man, i'm just happy it works, I don't care how many ways there are to prove it.

I lost track at 0:01

Can't believe I'm watching this for fun

I was literally thinking about this and now this was in my recommendation

Wowzers! Thanks for this information! I’m going to tell my hubby about it LOL

I remember when I learned this me and my dad had built a shed with a slanted roof and we didn't know how long the top had to be. the next day I walked into my geometry class and told my teacher I had used the Pythagorean theorem on my shed. she was super excited until I said "just kidding I used a tape measure like a normal person." WORTH IT

351. Recently a new proof was observed

Pythagoras: i made Pythagorean theorem
Al kashi : hold my Scalar Product

4:31 What a great idea for a science project!!

Also note that if c is given, you can graph y = ±√(c^2 - x^2) to get a circle. Now you're actually ready to start trigonometry, instead of just pressing sin and cos on a calculator to get an answer.

Why is it called a theory if it has been proven?

Hey, I just heard about the halting problem, so could you help me and everyone else understand? Thanks, Keep making great content!