Calculate area of the Yellow shaded region | Blue circle is inscribed in the sector | Fun Olympiad

So elegant!

Before watching: construct triangle OCD, which is a 30-60-90 triangle. Since CD is 1 (area of the circle is r^2pi), OC is 2. Thus the radius of the large circle is 3. The yellow area is 1/6 of 3^2*pi (or 3/2pi) minus pi. So interestingly the yellow area is pi/2 or half of the green area!

Thanks to you I managed to do the whole thing in my head in about 30 seconds. I learned the 30-60-90 trick from you.

Wow! Exquisite Geometry problem

Sir, you have shown a simple method to solve the problem. Please include problems on Calculus too.

Great explanation👍
Thanks for sharing😊

Delightful!

Very good Explanation

Thanks premath

CD = CE = CF = 1. OD = 1/tan30 = 1.732 (sqrt3). OC = 2, OF = 3.
Area of sector - Area of circle = pi*3*3/6 - pi = 1/2pi = 1.57

Thanks professor for this amazing question

A good mental exercise if one sees the hidden triangles.

Thanks for video.Good luck sir!!!!!!!!!

bu gercekten güzel bir cözüm
Türkiye den selamlar 👍👍👏👏

So 1 is the radius of the inside circle, then OF is the radius of the outside circle, it is OC +CF=2+1=3, hence the answer is 3^2 pi/6-pi=pi/2=1.57 approximately. 😃

If R = 3 then the length of the arc AB = ⅙ 2R π = π.
So the area of the circular sector is ½ R AB = 3/2 π.
Subtract 2/2 π from 3/2 π. The yellow region is π/2.

Área azul =πr² =π → r²=1→r=1 → ∆OCD es la mitad de un triángulo equilátero: Si CD=r=1→ OC=2CD=2 → Radio del sector circular =R =OC+CF =2+r=2+1=3 → Área amarilla =(60πR²/360) - π =(9π/6)-π =π/2
Gracias y un saludo.

Yay! I solved it, (pi)/2.

Let r be the radius of the blue circle and R be the radius of the sector:
A = πr²
π = πr²
r² = π/π = 1
r = 1
Draw EC, DC, and OC. As OA and OB are tangent to blue circle, ∠ODC and ∠OEC are each 90°. By Two Tangent property OE = OD, and as DC = EC = r, ∆ODC and ∆OEC are congruent.
α = ∠EOC = ∠DOC = (1/2)60° = 30°
CE/OC = sin(α)
1/OC = sin(30°) = 1/2
OC = 2
R = OP = OC + r = 2 + 1 = 3
Yellow area = sector - blue circle
A = (θ/360)πR² - π
A = (60/360)π(3²) - π = (1/6)π(9) - π
A = (3/2)π - π = π/2 cm²

Pi*3^2/6-pi=pi/2

∆OCD = ∆OCE = 30-60-90 triangle
a = x
b = x√3
c = 2x
a = CD = CE = 1 cm
b = OD = OE = √3 cm
c = OC = 2 cm
Radius of O = 2 cm + 1 cm = 3 cm
Area of O = π r² (angle / 360°)
O = π (3 cm)² (60°/360°) = π(9 cm²)(1/6) = (3/2)π cm²
O - C = 3/2π cm² - π cm² = 3/2π cm² - 2/2π cm² = ½π cm² ≈ 1.57 cm²

No peeking, no calculator, not even a pencil, all mental. Letters designating line segments are filled in from your diagram later.
Since the blue circle has area πr^2 = π. The radius must be 1.
Drop a perpendicular from the center of the blue circle to the bottom horizontal line (CD) and also connect the center of the blue circle to the left-hand vertex of the yellow arc (CO). This forms a 30-60-90 triangle OCD. CD, the side opposite the 30-degree angle is 1, so the hypotenuse OC is 2.
Draw a line from the left-hand vertex (O) through the center of the blue circle (C) to the outer arc (OF). This has length 2 + 1 = 3; so the radius of the arc (OF) is 3.
The area of the arc is 60/360 of a complete circle of radius 3: that is, (1/6)(π)(3^2) = (9/6)π = 3π/2.
The yellow region is this area minus the area of the blue circle, or 3 π/2 - π = π/2.
Cheers. 🤠

R/r=3 because the small circle is 1 of the 7 circles inscribed in the big one.

pi/2=1.57 cm^2

Got the answer without help on first try (79 year - old on the Pacific Coast)

Wow

Sky is the limit. We have to be above the clouds.

Can someone explain to me why OC＝2 please😢

Meanwhile here I was, cheating by remembering you can pack six circles around a seventh, and going from there

❤🥂😀

Too easy 😞