Math, asked by anuranjanabokaro, 7 months ago

6. A chord of a circle of radius 15 cm
subtends an angle of 60° at the centre.
Find the areas of the corresponding
minor and major segments of the circle.
(Use t = 3.14 and V3 = 1.73)

Answers

Answered by Qhunter
6

Step-by-step explanation:

Radius of the circle = 15 cm

ΔAOB is isosceles as two sides are equal.

∴ ∠A = ∠B

Sum of all angles of triangle = 180°

∠A + ∠B + ∠C = 180°

⇒ 2 ∠A = 180° - 60°

⇒ ∠A = 120°/2

⇒ ∠A = 60°

Triangle is equilateral as ∠A = ∠B = ∠C = 60°

∴ OA = OB = AB = 15 cm

Area of equilateral ΔAOB = √3/4 × (OA)2 = √3/4 × 152

= (225√3)/4 cm2 = 97.3 cm2

Angle subtend at the centre by minor segment = 60°

Area of Minor sector making angle 60° = (60°/360°) × π r2 cm2

= (1/6) × 152 π cm2 = 225/6 π cm2

= (225/6) × 3.14 cm2 = 117.75 cm2

Area of the minor segment = Area of Minor sector - Area of equilateral ΔAOB

= 117.75 cm2 - 97.3 cm2 = 20.4 cm2

Angle made by Major sector = 360° - 60° = 300°

Area of the sector making angle 300° = (300°/360°) × π r2 cm2

= (5/6) × 152 π cm2 = 1125/6 π cm2

= (1125/6) × 3.14 cm2 = 588.75 cm2

Area of major segment = Area of Minor sector + Area of equilateral ΔAOB

= 588.75 cm2 + 97.3 cm2 = 686.05 cm2

DEADSOUL

Answered by Satvik8669
5

Answer:

your required answer is given above:

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