Can you find area of the Yellow shaded Circle? | (Quarter Circle) |
Learn how to find the area of the Yellow shaded Circle. Important Geometry skills are also explained: Pythagorean Theorem; circle area formula; tangent secant theorem; circle theorem; Perpendicular bisector theorem. Step-by-step tutorial by PreMath.com
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Пікірлер: 41
Fantastique
@PreMath
Ай бұрын
Merci chéri❤️
We can use intersecting secants theorem for secants to the yellow circle originating from O: 2*(2 + r - 2 + r - 2) = 14*(14 - 2r) which gives r = 25/4 readily.
@angeluomo
Ай бұрын
The simplest solution. Well done.
@phungpham1725
Ай бұрын
I did it the same way!😊
@PreMath
Ай бұрын
Thanks for the feedback ❤️
Thank you! Good introduction to the tangent secant theorem.
@PreMath
Ай бұрын
Glad you enjoyed it! Thanks for the feedback ❤️
Join OCB( these points are collinear according to tangent / kissing circle property) . Suppose it cuts yellow circle at point R . In respect of yellow circle OB & OQ are secants. Hence by intersecting secants theorem we may get OP*OQ = OR * OB---(1) OP=2 (given) OQ = 2+2(r -2) OR= R (radius of the quarter circle) = 14 OR= OB - BOR =14 -2r Hence from equation (1) we may write 2[2+2(r - 2) = (14 - 2r) 14 > 4r - 4 = 196 - 28r > r = 200/32=25/4 Area of yellow circle = 22/7*25/4*25/4 =122 . 77 sq units (approx.)
@PreMath
Ай бұрын
Excellent! Thanks for sharing ❤️
After figuring out that the radius of the quarter circle is 14, you can solve for the radius of the yellow circle with 2 right triangles: 1) OA^2+r^2=(14-r)^2 and 2) OA^2+(r-2)^2=r^2. With triangle 1, you get OA^2=196-28r. With triangle 2, you get OA^2= 4r-4. Setting these two equations equal to each other results in: 4r-4 = 196-28r. Solving for r, we get r= 25/4.
@PreMath
Ай бұрын
Excellent! Thanks for sharing ❤️
Let's find the area: . .. ... .... ..... First of all we calculate the radius R of the quarter circle: A = πR²/4 49π = πR²/4 4*49 = R² ⇒ R = √(4*49) = 2*7 = 14 The circumference of the quarter circle and the circumference of the yellow circle have exactly one point of intersection. Therefore this point and the centers of the two circles are located on the same line. So with r being the radius of the yellow circle we obtain: OC + BC = OB OC + r = R ⇒ OC = R − r A is a point of tangency. Therefore AC is parallel to OQ and the triangle OAC is a right triangle. By applying the Pythagorean theorem we obtain: OA² + AC² = OC² OA² + r² = (R − r)² ⇒ OA² = (R − r)² − r² Now let's add point R such that AR is the diameter of the yellow circle. According to the theorem of Thales the triangle APR is a right triangle. Let's also add point S such that PS is the height of the triangle APR according to its base AR. Since APR is a right triangle, we can apply the right triangle altitude theorem: AS*RS = PS² AS*(AR − AS) = PS² OP*(2*r − OP) = OA² OP*(2*r − OP) = (R − r)² − r² 2*(2*r − 2) = (14 − r)² − r² 4*r − 4 = 196 − 28*r + r² − r² 32*r = 200 ⇒ r = 200/32 = 25/4 Now we are able to calculate the area of the yellow circle: A(yellow circle) = πr² = (625/16)π ≈ 122.72 Best regards from Germany
@PreMath
Ай бұрын
Excellent! Thanks for sharing ❤️
In triangle OCA Hypotenuse (OC) =14 - r (circles touches internally and distance between the centres is difference of their radii) (14 - r) ^2 = r^2 + [2√(r - 1)]^2 >196 - 28r +r^2 =r^2+4r -4 > r = 200/32
@PreMath
Ай бұрын
Thanks for the feedback ❤️
intresting
@PreMath
Ай бұрын
Glad to hear that! Thanks for the feedback ❤️
Nice ... Congrats
@PreMath
Ай бұрын
Glad to hear that! Thanks for the feedback ❤️
This is really awesome,many thanks, Sir, very challenging 🙂 fast lane: AO = 2√(r - 1); BO = 14 = BT + TO = 2r + (14 - 2r) → 4(r - 1) = 196 - 28r → r = 25/4 btw: AC = AN + = r + (r - 2) → CPN = α → sin(α) = 17/25; COA = δ → sin(δ) = 25/31
@PreMath
Ай бұрын
You are very welcome! Thanks for the feedback ❤️
Essa questão foi maravilhosa!
@PreMath
Ай бұрын
Gracias, querido❤️
OA=a..raggio(big)=14...le equazioni sono R+√(R^2+a^2)=14..R=2+√(R^2-a^2)... risulta a^2=4R-4..e la sostituisco nella prima..32R=200...R=25/4
@PreMath
Ай бұрын
Excellent! Thanks for sharing ❤️
Let's use an orthonormal center O, first axis (OA) The equation of the yellow circle is: x^2 + y^2 +a.x + b.y +c = 0 P(0; 2) is on this circle, so 4 + 2.b + c = 0 and c = -2.b -4 The equation is now x^2 + y^2 +a.x +b.y -2.b -4 = 0 At the intersection with (OA) (which equation is y = 0) we have: x^2 + a.x -2.b -4 = 0. This equation must have a double solution (point of tangency) so its delta is 0 Delta = a^2 +4.(2.b +4) = a^2 + 8.b +16 = 0 So we have b = (-(a^2)/8) -2 Now the equation of the yellow circle is: x^2 + y^2 +a.x - ((a^2 +16)/8).y +(a^2)/4 = 0 or (x +a/2)^2 + (y - (a^2 +16)/16)^2 = ((a^2 + 16)/16)^2 The radius of the yellox circle is then r = (a^2 +16)/16 (*) The center C of this circle has for abscissa -a/2, so OA = -a/2 and OC^2 = ((a^2) /4 ) + r^2 in OAC Then OC = sqrt((a^2)/4) + r^2) OC + CB = radius of the big quater circle = 14 So we have:sqrt((a^2)/4 +r^2) + r =14 (a^2)/4 + r^2 = (14 - r)^2. , then (a^2)/4 = -28.(r^2) + 196 We replace (a^2)/4 by 4.(r^2) -4 (by *) and have: 32.r = 200 and r = 200/32 = 25/4 The yellow area is Pi.((25/4)^2) = (625/16).Pi Another method to find r at the end: When the coordinates of C are known, we can write the equation of (OC), find the intersection B with the big quater circle and then r = CB. (This problem was not so evident.)
@PreMath
Ай бұрын
Excellent! Thanks for the feedback ❤️
r²=x²+(r-2)²
@PreMath
Ай бұрын
Thanks for the feedback ❤️
Let R be the radius of quarter circle O and r be the radius of circle C. Quarter circle O: Aₒ = πR²/4 49π = πR²/4 R² = 49π(4/π) = 196 R = √196 = 14 Draw radius OB. When two circles are tangent to each other their point of tangency is collinear with their centers. As B is the point of tangency between circle C and quarter circle O, then C is collinear with OB. As CB = r and OB = R = 14, OC = 14-r. Draw CA. As CA is a radius and OA is tangent to circle C at A, ∠OAC = 90°. Triangle ∆OAC: OA² + CA² = OC² OA² + r² = (14-r)² OA² = 196 - 28r + r² - r² OA = √(196-28r) Draw CM, where M is the point on PQ where CM is perpendicular to PQ. As PQ is a chord of circle C, CM bisects PQ, so PM = MQ. As ∠CMP = ∠MOA = ∠OAC = 90°, then ∠ACM = 90° and OACM is a rectangle. As CA = OM = r and OP = 2, PM = r-2. Triangle ∆CMP: CM² + PM² = CP² (196-28r) + (r-2)² = r² 196 - 28r + r² - 4r + 4 = r² 32r = 200 r = 200/32 = 25/4 Circle C: Aᴄ = πr² = π(25/4)² = 625π/16 ≈ 122.72 sq units
@PreMath
Ай бұрын
Excellent! Thanks for sharing ❤️
All Hail Jakob Steiner! ...and contribution of Point of Infinity. 🙂
@PreMath
Ай бұрын
😀❤️ Thanks for the feedback ❤️
Sorry, no idea: Why are O, C and B collinear, particulary O ??
@MegaSuperEnrique
Ай бұрын
They are both tangent at point B. So by def, the line from their center to B is perpendicular (90 angle) to the tangent line. If they both have a perpendicular line at B going to their center, then the lines are colinear, and OCB is a straight line.
@WernHerr
Ай бұрын
@@MegaSuperEnrique Thank you very much, I had an obvious mistake in thinking
14 is the radius of the quarter circle, ....it is difficult puzzle😅
@PreMath
Ай бұрын
Thanks for the feedback ❤️