You are my favourite math tutor on youtube

omg, u have uploaded this at the very right time!!!!!

This is so helpful thank you

Very good. Thanks 👍

I have a very simole answer to this. Imagine a circle with a diameter of 5 cm. Pick a random point on the circle and connect that dot with the two end points of the diamater. Now you have a right triangle with a hypotenuse of 5 cm. Now it’s easy to see and calculate what’s the biggest possible right triangle is with a 5 cm hypotenuse and that is when the altitude is the radius of the circle. Which is 5/2=2.5 cm. Any higher and the triangle won’t be a right triangle anymore. So the answer is simply 1/2*5*2,5= 6,25 sq cm.

....Good day to you Newton, Nice to see that you are enthusiastically tackling math topics, especially when it comes to optimization problems. I can well imagine that the same enthusiasm can make you confused for a moment, because you think you can think faster than you actually can as a human being; at least this is what I recognize in myself oh so well! Concerning this problem, I would have emphasized at the end (as a valuable conclusion) that the maximum area is always reached with an isosceles triangle, and is therefore half the area of the imaginary square with (equal) sides 5/sqrt(2) and fixed diagonal 5. For example, if you take a fixed perimeter for rectangles in different side lengths, you will reach the maximum area with a square with the same perimeter, and thus for isosceles triangles the same... Thank you Newton and stay well, Jan-W p.s. Also think of constraints and objective function...

x^2+y^2=25 Pythagoras theorem, sqrt((x^2+y^2)/2)>=sqrt(xy) - proved inequality between averages Raise both sides to the power of 2 (x^2+y^2)/2>=xy devide both sides by two and replace x^2+y^2 with 25 25/4>=1/2xy , 1/2xy is our area, so it equals to 6.25.

What does the 2nd derivative do? Can that be used to show we actually found the max?

To find x, we may consider A^2=x^2(25-x^2)*1/4 or 4A^2 instead of A.

This is a fun puzzle if you don't over-think it. I was able to solve in 30 sec by knowing the largest rectangle bounded by its diagonal is formed by equal side lengths. The side length of such a square is the diagonal over root2. Multiply the side lengths and take half to get the largest triangle.

I had a different approach. Given that for the same hypotenuse, 45° 45° 90° triangle will have the largest area. By applying the property of the special triangle, I can do (5/√2)^2/2, that will be the product of the length and width/2, which is equal to 6.25

thanks Newton

The algebra is the hard part! Where is your algebra course?

fuck i love you, best vid possible

Hypotenuse^2=4×TriangleArea+(LegsDifference)^2

Triangle is isosceles

It is easier to optimize the square of the area

"WTF" 😂

Вы ЧО, с Урала!?! 1)maxA треугольника при maxh; 2) maxh=5/2; 3) maxA= 1/2 * 5 * 5/2 = 25/4; ГЫЫЫЫЫЫЫЫЫЫЫЫЫЫ