Can you find the Area of the Green shaded Region? | Quick & Easy Tutorial

Super explanation i like it very much

What makes your content so great is that I have no clue where to start but by the end, you can't help but learn something.

Rotate the top-right green sector anti-clockwise around B by 60 deg (C -> D), and after that fold half of the moved sector below AB anti-clockwise by 180 deg around the middle of AB (D' to C'). All the green then forms a 30 deg pie slice with radius 8...

If only this medium and this quality of explanation were available to me 55 years ago!! I always enjoyed high school math, but this is so much more fun!

These are addictive! Figured it out as soon as I saw that BD=8. Keep 'em coming, please.

very well explained, your step-by-step teaching is so easy to follow and understand, thanks for sharing this area problem

My own method was a bit of a shortcut. I could see that if the green segment on the right were halved, and the two halves attached to the green shape on the left to form a 30-degree sector, then that sector would have the same area as the two green areas, which would be a twelfth of the circle's area.

I love your videos, keep me on my toes and like very much from time to time refresh my math basics. so many cool stuff you presented. great job. THANKS and Merry Christmas.

Area of ABC = (0.5)(8)(8/tan 30) = 55.42cm2.
Area of quadrant = (0.25)(pi)(8)(8) = 50.27 cm2.
Area of triangle DBC = (0.5)(8)(8)(sin 60) = 27.71 cm2.
Area of sector BDE = (30/360)(pi)(8)(8) = 16.76 cm2.
Area of green shaded area = 55.42 + 50.27 - 2(27.71 + 16.76) = 16.75 cm2.

Great problem! Very interesting. I’ve learned how to solve from watching your previous videos.

Extremely beautiful and amazing solution dear sir keep.... showing... always us Neo ideas and methods....❤️🙏❤️🙏❤️❤️❤️🙏🙏🙏🙏

Awesome question, excellent way to solve it, many thanks, Sir!
φ = 30° → BC = 8 → AC = 16 → AB = 8√3
DBC = 2φ → AD' = BD' = AB/2 = 4√3 → area ∆BCD = 16√3
r = 8 → πr^2 = 64π → 64π(60/360) = 32π/3 → 32π/3 - 16√3 = (16/3)(2π - 3√3)
DAB = ABD = φ → area ∆ABD = 16√3
64π(30/360) = 16π/3 →
green area = (16/3)(2π - 3√3) + (16/3)(3√3 - π) =16π/3
or:
because ED'D = (1/2)(1/3)(32π - 48√3) → green area =
(1/3)(32π - 48√3) + 8√3 - (1/6)(32π - 48√3) = (1/6)(32π - 48√3 + 48√3) = 16π/3

Thank guy,the way easiest for the normal lesson.

It was very easy to me. My friend pointed it out without cosine rule and I did point it out with cosine rule. I love to figure out two methods of solution of a single problem. Because on one hand it increases skill on the other hand, it enhances our creativity. It also makes it possible to teach a junior student. A boy of class 7 must not know cosine rule, for him I would like to think another solution which would make him understand it.

thank you Mr💪🏻

Thank you

Amazing solution. Thank you.

That was beautifully explained. A very interesting problem. Thanks.....

Great flow of interesting problems.

Nice one.
Well explained, thanks.

You got the right answer, but there is an easier way.
1) Draw a line perpendicular to CD, at the midpoint of CD. This line bisects the upper green area into two equal pieces.
2) Join these two pieces together along their long sides, so they are back-to-back.
3) Join this to the lower green section, and you get an area shaped like a pizza slice. The 30 degree angle makes this 1/12 of the pizza.
4) The answer is now obvious: Compute the area of a circle with radius=8, then divide by 12.

Excellent.
Specially sector analysis

I liked your video on premath . Thank you sir !

شكرا.

Thank you for a very interesting question and a very good explanation. With respect, if the radii of the sectors are the same and one angle of the sector is twice the other, then the required area is simple half the area of the larger sector or just the area of the smaller sector.
Furthermore, it may be done by rotating the 60° sector about B anticlockwise and with a bit of folding, it would become clear that the area of the green region is 16π/3. Unfortunately I cannot upload a photo of the arrangement I am talking about.
Thank you. God Bless

I got there in the end.
I got the right-hand green bit with (64/6)pi - 16*sqrt(3), then the left hand part with 16*sqrt(3) - (64/12)pi (what a palaver).
Then add up. The 16*sqrt(3) parts cancel each other so I got to (64/6)pi - (64/12)pi which reduces a bit to (32/6)pi then (16/3)pi for the16.7...sq units

Its amazing we can solve this kind of problems with just basic geometry knowledge and with a little bit of logic.
I mean sure you can use trigonometry but that’s higher lv math than this

It took me some calculations and I hope I haven‘t messed it up, but leveraging on the properties of 30/60/90 triangles, the properties of an equilateral triangle and the area of a circle, I arrived at 16/3*pi or 16,75 square units.
After watching: realizing that the two triangles have the same area would have made my live easier and explains, why in the end everything neatly cancelled away…!

“Excellent!”

there is a 30* and a 90* so its a 1:sqrt3:2 triangle •8, so AB=8sqrt3, AC=16
the area of AED=ABC-EBCD. EBCD is the 90* part of the circle-the green shaded aread of the circle. since angle ACB=60*, if you construct triangle BCD, it has 2 equal sides of 8, since those are both the radius. those stand on the opposite side of angle BCD and BDC, so those angles are also equal. angle C in ABC= angle C in BCD, so angle BCD=60* and that is equal to BDC so that is also 60*, this means that angle CBD=60* as well by substraction. since we know the angle and the radius of the green shaded part of the circle, we can calculate its area: its equal to 60*/360*•area of the circle=64π/6=10.2π. now we substact the triangle BCD:. since its a special 1:1:1 triangle, the area is 2•side•sqrt3= 1/2•8•4sqrt3=16sqrt3. so the green shaded part of the circle is 10.2π-16sqrt3. recall ADE=ABC-(circle/4-green shaded pt. circle)=ABC-(16π-(10.2π-16sqrt3))=ABC-5.8π+16sqrt3. now all thats left is calculate the area of ABC. the area of a triangle is (b•h)/2, we will use b=AB and h=BC=8 , since ABC is a 1:sqrt3:2 triangle, AB=sqrt3•8=8sqrt3. so the area of ABC=(8sqrt3•8)/2=32sqrt3
so ADE=ABC-5.8π+16sqrt3=48sqrt3-5.8π. now add the green shaded area of the circle to it and we’re done: (48sqrt3-5.8π)+(10.2π-16sqrt3)=32sqrt3+4,4π

Brilliant question thnx a lot

Excellent

I did it slightly differently, but got the same answer, although it took me three times to make sure my math was correct.
The green area is triangle ABC - quarter circle B +2 times the green arc DC.
ABD = 32sqrt3.
Quarter circle B = 16π
Curve BC =1/6 circle B - triangle BCD
= (64/6)π - 16sqrt3
So… 32sqrt3 - 16π + 2[ (64/6)π - 16sqrt3]
32sqrt3 - 16π + (64/3)π - 32sqrt3
(64/3)π - 16π
(64/3)π - (48/3)π
(16/3)π

Neat solution;I love it😚

In general, let r be the radius of the quarter circle with m(angle(A)) = 30(degrees) implies
Area (Green) = pi/12 * r^2 = 1/3 * (pi/4 * r^2) = 1/3 * Area (quarter circle)
implies Area (Green)/A (quarter circle) = 1/3.

I probably would have solved this using the segment of a circle formula A = (½) × r 2 × [(π/180) θ - sin θ], then use half of the green circle segment to create a right triangle with new point F. ADF having side AD=8, DF=4, a=30*. Solve area of ADF, then add half the area of circle segment.

Es un buen ejercicio mental, pero ya existen soluciones a estos problemas con teoremas.

Area of top green sector=area of the section tended by the arc CD-Area of BCD=1/2×64×pi/3-1/2×64×sqrt(3)/2=32pi/3-16sqrt(3)
Area of bottom green section=Area of ADB-Area of section subtended by the arc DE=16sqrt(3)-1/2×64×pi/6=16sqrt(3)-16pi/3
Area of all green parts=32pi/3-16sqrt(3)+16sqrt(3)-16pi/3=16pi/3

Более прямолинейное решение:
▫ΔBCD - равнобедренный, BC=BD=8;
▫∠BCD=180-30-90=60°. ΔBCD равнобедренный => ∠BDC=∠BCD=60°. Т. о. ∠CBD=180-60-60=60° => ΔBCD - равносторонний (правильный);
▫находим площадь сектора BCD, находим и отнимаем площадь ΔBCD. Получаем площадь верхнего сегмента DC;
▫находим площадь ΔABC;
▫находим площадь четверти круга BCE;
▫площадь нижнего сегмента ADE=площадь ΔABC + площадь сегмента DC - площадь четверти круга BCE;
▫поскольку нам нужна общая площадь обоих сегментов, она выражается как площадь ΔABC + 2*(площадь сегмента DC) - площадь четверти круга BCE;
Можно ещё развернуть выражение: четверть круга плюс сектор 60° это будет сектор 150°, от него уже надо отнимать ΔBCD.

DR.How the two rectangles equal

There’s another easier method, no need to calculate so much, just compare the relationship to know: the shaded area is equal to 1/12 of the circle area.

Wow........⭐️⭐️⭐️

Great problem, I didn't quite get your methodology but I got very close to the right answer, I can't just see at the moment where I went wrong, my final answer was 0.66 short 🙄 ah well tomorrow is another day 👍🏻
Ah...just found my error, I didn't add my areas properly... Doh!

it is weird. Triangle ABD looks a lot larger than BCD, but math says they are identical in size.

Premathers rocks 😊👍

من المغرب شكرا على المجهودات
للتبسيط نأخذ الوحدة هي u=8

PRESENTO MIS EXCUSAS POR QUE NO HABIA VISTO EL VIDEO COMPLETO SI ESTA CORRECTAMENTE RESUELTO

S=16π/3≈16,76)

Devo lavorare di geometria analitica e calcolare lintersezione tra la retta e la circonferenza e usare gli integrali.. Non ci sono altri sistemi più semplici

I miei calcoli sono Averde=(16/3)pi..... Ho visto che tu hai utilizzato un altro metodo, non il mio(intersezione e integrale)

А=16,746🎉

CON MUCHA EXTRAÑEZA VEO UNA ANALISIS Y RESPUESTA INCORRECTA AL RESOLVER ESTE PROBLEMA.
TODO EL TRABAJO MATEMATICO DESARROLLARDO EN ESTE EJERCICIO NO CORRESPONDE A ORIENTAR LA RESPUESTA DE LA PREGUNTA DEL AREA VERDE QUE SE MUESTRA LA FIGURA.
A MI MANERA DE VER EXINTES DOS FROMAS SENCILLAS DE RESOLVERLO, Y EN AMBAS QUE INVOLUCRAR EL CALCULO DEL AREA DEL TRIANGULO RECTANGULO, SI NO SE HACE NO ESPOSIBLE LLEGAR A LA RESPUESTA QUE SOLICITAN, YA QUE SE PREGUNTA POR PARTE DEL AREA DE ESTE TRIANGULO Y POR ESO NO LO PODEMOS DESCARTAR

International mathematics olempyad. 👍

My answer 16.40 , i think my wrong was the construction

1st comment

Area of quadrant :
Aq= π R²/4
Aq= π 8²/4
Aq= 50.265 cm²
Base of right triangle:
tan β = h / b
b = h / tan β
b = 8 / tan 30°
b = 13,856 cm
Area of right triangle:
At = ½ b. h
At = ½ 13,856 . 8
At = 55,426 cm²
Area of green circular segment:
Acs = ½ R² (α - sin α)
Acs = ½ 8² (60° - sin 60°)
Acs = 5,797 cm²
Green Shaded Area:
A = At - Aq + 2.Acs
A = 55,426 -50,265 + 2 x 5,797
A = 16.755 cm² ( Solved √ )

1st comment