Wait... Could it be... 3Blue1Brown?!

This man is bringing me single handedly through my economics undergraduate degree!!! Keep it up and thank you!

Perhaps the best explanation on the Internet. Thanks 3B1B !

The usefulness of the Lagrangian equation is not only because it's easier to program into a computer. The lambda can also be interpreted as the amount that R(x,y) would increase if the constant b in the constraint function could be relaxed by one unit. That can also be explained given only the geometric setup, but it's a little easier to calculate it given the Lagrangian.

I just...can't believe that I took a whole course in Optimization and nobody ever told me this is where the Lagrangian comes from. It's so clear.

3:06 "why is lambda so hard to draw?" lol

Arguably the best explanation of Lagrangian on the internet! Thanks @Khan Academy!

Awesome explanations! I've been struggling to figure this out for 3 years in my Ph.D. and this is the best one!

Very clear and concise explanation. Thanks a lot. I had the lagrange function in many courses at college but this is the first time I fully understand the concept behind it.

Why does Sal sound like Grant when he explains math?

Turning some calculus into geometry is helpful to those who visualize. Thank you!

I just clicked on this video, because I trust Khan Academy as a knowledge source. But Grant was a welcome surprise.

The art of creatively adding zero: B(x,y)=4 means B(x,y)-4 = 0 means lambda(B(x,y)-4) = 0 means R(x,y) - lambda(B(x,y)-4) = R(x,y) provided the constraint holds. So lambda only has an effect when the constraint does not hold. Minimising the magnitude of influence of lambda (i.e. how much effect changing lambda has) is equivalent to making that influence zero (since influence=0 can be attained when the constraint is), and making that influence zero for nonzero lambda means obeying the constraint. I always enjoy cleverness like this in mathematics. Zero is a creature with many disguises.

hi khan family ,i'm very happy to find your videos on the internet free and very comfortable to watch your videos it's help me so much and we need more video about electromagnetism circuits magnetic (hyper circuits&circuits composite..& Coils ...)

That perfect red curve looks satisfying

Apparently this is going to be important in my classical mechanics and QM class. Thanks!

Dang it. I was hoping for Lagrangian mechanics.

I was struggeling a bit with understanding the concept of Lagrangian, but this videos of you helped me a lot. Thanks!

Thank you! I have this issue in lectures where I frequently zone-out/forget to turn up so I appreciate your thorough clear explanation which leaves no knowledge gaps :)

Simplest way of explaining the most complicated looking concept. Hats off to you Sir 👌👌👌

Is this 3blue1brown talking?

thanks. I am studying the mechanical aspect of the lagrangian, applied to a mechanical system that is conservative. This approach is useful to widen my view of the probelam!

Welcome Blue and Brown guy! You are such a great teacher !

Khan academy is the GOAT of mathematical/physics topics!

Imagine this guy being your university professor for every course you take.

omg, 3Blue1Brown never fail you. Always can find the best explanation from him! BRAVO!

I think the constraint equation should actually be x^2 + y^2 =16 to match the red circle because when y=0 and x=4 (where the red circle intersects the x-axis on the right), x^2 would be 16. Or else the red circle should be made smaller to have a radius of 2 units.

Seems crazy that, given how simple the explanation of where the Lagrangian comes from, that equation is commonly given without further justification... Makes one wonder if some teachers even know what they are doing beyond following a recipe...

3Blue1Brown ❤❤❤ thank you!!

Wait... 3Blue1Brown? Awesome!

"lagrangian is nothing more than repackaging what we already knew". this seems false, and towards the end you finally mentioned why. the transform to lagrangian reduces the constrained optimization problem to an UNconstrained optimization problem by embedding the problem into "lambda space". and that's SUPER significant.

Such a nice presentation of the Lagrangian!

"You'd never have a budget that looks like a circle" Huh, didn't think so

Great video, now it's clear and easy to understand! THANK YOU!

Tring to find the maximum when L does not change when x change, that when it reaches maximum( or minimum) same as y also, lima since at that point, it does not change, because of changing in direction ( increase to decrease)

There is a big mistake in this video. Optimizing with constraints is not the same as Optimizing the Lagrangian without constraints unless the function we are optimizing is convex and the constraint is affine!

i won`t for sure need this in life , but i will for sure need this to pass my maths exam .

God I wish you were my teacher for advanced diff eq!

Such an excellent tutorial!

Thanks for the great video. Would you please make a video about Lagrange duality.

Ah the sweet voice of Grant. What a pleasure

Which playlist does this video belong to? I want to see more.

Could anybody explain: What the difference between Lagrangian multipliers and sequential quadratic programming (SQP)?

still the best explanation in youtube

usually we have many constraints and not just one. suppose there was another constraint, how will the equation change?

Very helpful - as always! Didn't ZZ top write a song about La Grange?

When can see the function is less difficult to understand. Thank you

This vídeo has an huge error! The graphic o Gradient is not what they paint. The Gradient is the parallel plane to the vector they said.

Please do a video explaining the inter-temporal rate of substitution

Superb!

Can I suggest adding the link to the full playlist so one can find more videos related to the current video?

12:25 he mentioned modeling the revenue or the budget as functions, any idea how to calculate such functions?

What are the prequisite of langrangian?

Is it really necessary to include the b in R - lambda B? When you take the derivatives in later steps that will just go to 0 because it is constant. Is it really necessary to take dL/dlambda? You get information that was given in the first place.

The Lagrangian function is now my god.

Best best best best explaination ever!!!

Could you please put the link of the next course blow for convenience.

"And all these letters make it look like were using some advanced math" Me, a normal guy who looked up a math video to see how stupid it will make me feel: 🤓🤡😶

I have a question, in some textbooks the Lagrangian is written as ''L(x,y,lamda)=F(x,y)+Lamda*G(x,y)'' where G(x,y) is the constriction, and yours is L=GradF-Lamda*GradG, in the end the systems of equations that must be solved are different by a minus sign and it changes quite a bit the results. Why are this equations different? I mean, I understood your explanation and it's pretty cool, but i couldn't use your equation because it was different from the one I saw in cass.

Nice explanation

I notice that voice from anywhere

We can get both the maximum and minimum using this. Right?

Thank you!

why we define the action integral of lagrangian times dt? has we got a proof for it?

I tried to scroll up the video.

I think you can add a variable and have '

where is the next video??!!

Can somebody explain to me how the gradient of R is promotional of B...please

why do we substract the b ?

He kills me with... it's just artificial fanciness... "it looks like you'redoing advancedmath but it is just artificial xD"

what is the program that he uses for the graph?

非常的透彻

3Blue1Brown!

Could someone please tell me that the reasons to assume the gradient equal to zero?

Yasser Abu Mostafa himself sent me here!

Why gradient of R not equal to gradient of B ? Is should be equal because we calculate the gradient in the same point

I didn't get it :( too complicated or just too much writing I don't know..

Sir which book you have preferred for this

Me : let me check out some Lagrangian mechanics online Also me: hmm khan academy videos are good I should probably check it. Hears the voice in the video "WAAAAAAIT A SECOND"

Grant Sanderson in the house ladies and gentlemen!

Sounds like the name of a Highlander spin-off.

I wonder if this is related to Lagrangian points in Astrophysics in any way.

Do a video on Bitcoin !!

wait a minute, this is 3B1B. You can't fool us..

DANG THE DRAWING

Can somebody please tell me, what is this all for? I mean, if we can use the Pythagorean Theorem to find lengths in triangles, what can we use this for?

Wait... I know you

Commenting to spread on the tubes!

Why the term "gradient" is used instead of velocity or slope in this video, any hidden meaning?

What courses in mathematics do I have to have in my body before going inside the famous Lagrangian? Somebody can explain?

why is the gradient equal to 0

Hey, hey , grant?

3b1b does Khan Avademy videos??????

Danke

What drawing thing is that

3B1B!!!!

When the math gets curly also get funky

Sigh.. i shouldn't have nearly flunked first year calculus then dropped out of second year. My brain surely isn't THAT tiny that i couldn't have worked hard and made it through both with semi-decent understanding.

Can someone pls explain the Standard Model Lagrangian as a 15 year old wld understand it?😅

3Blue1Brown is here !!!!!